MOTOROLA
DSP56371 Technical Data
1
1.0
Introduction
The DSP56371 is a high density CMOS device with 5.0 volt compatible inputs
and outputs.
NOTE: This document contains information on a new product.
Specifications and information herein are subject to change without
notice.
Finalized specifications may be published after further characterization and
device qualifications are completed.
2.0
Maximum Ratings
NOTE: In the calculation of timing requirements, adding a maximum value of
one specification to a minimum value of another specification does not
yield a reasonable sum. A maximum specification is calculated using
a worst case variation of process parameter values in one direction.
The minimum specification is calculated using the worst case for the
same parameters in the opposite direction. Therefore, a "maximum"
value for a specification will never occur in the same device that has
a "minimum" value for another specification; adding a maximum to a
minimum represents a condition that can never exist.
CAUTION
This device contains circuitry protecting
against damage due to high static voltage or
electrical fields. However, normal precautions
should be taken to avoid exceeding maximum
voltage ratings. Reliability of operation is
enhanced if unused inputs are pulled to an
appropriate logic voltage level (e.g., either
GND or V
DD
). The suggested value for a
pullup or pulldown resistor is 10 k
.
Technical Data
DSP56371/D
Rev. 2, 04/2004
DSP56371 Electrical
Specifications
Topic
Page
1.0 Introduction ..................................1
2.0 Maximum Ratings ........................1
3.0 Power Requirements....................2
4.0 Thermal Characteristics ...............3
5.0 DC Electrical Characteristics........4
6.0 AC Electrical Characteristics........5
7.0 Internal Clocks .............................5
8.0 External Clock Operation .............6
9.0 Reset, Stop, Mode Select, and
Interrupt Timing ............................7
10.0 Serial Host Interface SPI Protocol
Timing.........................................10
11.0 Serial Host Interface (SHI) I
2
C
Protocol Timing...........................16
12.0 Enhanced Serial Audio Interface
Timing.........................................19
13.0 Digital Audio Transmitter Timing24
14.0 Timer Timing.............................25
15.0 GPIO Timing.............................25
16.0 JTAG Timing.............................26
17.0 Package Information ................29
18.0 Design Considerations .............34
19.0 Power Consumption Benchmark37
20.0 IBIS Model................................39
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Power Requirements
2
DSP56371 Technical Data
MOTOROLA
3.0
Power Requirements
To prevent high current conditions due to possible improper sequencing of the power supplies, the
connection shown below is recommended to be made between the DSP56371 IO_VDD and CORE_VDD
power pins.
Table 1 Maximum Ratings
Rating
1
Symbol
Value
1, 2
Unit
Supply Voltage
V
CORE_VDD,
V
PLLD_VDD
-
0.3 to + 1.6
V
V
PLLP_VDD,
V
IO_VDD,
V
PLLA_VDD
,
-
0.3 to + 4.0
V
All "5.0V tolerant" input voltages
V
IN
GND
-
0.3 to 5.5V
V
Current drain per pin excluding V
DD
and
GND (Except for pads listed below)
I
12
mA
SCK_SCL
I
SCK
16
mA
ACI_PD0,ADO_PD1
I
DAX
24
mA
TDO
Ijtag
24
mA
Operating temperature range
3
T
J
-40 to +115
C
Storage temperature
T
STG
-
55 to +125
C
Note:
1.
GND = 0 V; T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; CL = 50PF
2.
Absolute maximum ratings are stress ratings only, and functional operation at the maximum is not
guaranteed. Stress beyond the maximum rating may affect device reliability or cause permanent
damage to the device.
3.
Operating temperature qualified for consumer applications.
IO VDD
CORE VDD
External
Schottcky
Diode
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Thermal Characteristics
MOTOROLA
DSP56371 Technical Data
3
To prevent a high current condition upon power up, the IOVDD must be applied ahead of the CORE VDD
as shown below if the external Schottcky is not used.
4.0
Thermal Characteristics
Table 2 Thermal Characteristics
Characteristic
Symbol
TQFP Value
Unit
Natural Convection, Junction-to-ambient thermal
resistance
1,2
R
JA
or
JA
39
C/W
Junction-to-case thermal resistance
3
R
JC
or
JC
18.25
C/W
Note:
1.
Junction temperature is a function of die size, on-chip power dissipation, package thermal
resistance, mounting site (board) temperature, ambient temperature, air flow, power dissipation
of other components on the board, and board thermal resistance.
2.
Per SEMI G38-87 and JEDEC JESD51-2 with the single layer board horizontal.
3.
Thermal resistance between the die and the case top surface as measured by the cold plate
method (MIL SPEC-883 Method 1012.1).
CORE VDD
IO VDD
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DC Electrical Characteristics
4
DSP56371 Technical Data
MOTOROLA
5.0
DC Electrical Characteristics
Table 3 DC ELECTRICAL CHARACTERISTICS
4
Characteristics
Symbol
Min
Typ
Max
Unit
Supply voltages
Core (core_vdd)
PLL (plld_vdd)
V
DD
1.2
1.25
1.3
1
V
Supply voltages
Vio_vdd
PLL (pllp_vdd)
PLL (plla_vdd)
V
DDIO
3.135
3.3
3.46
1
V
Input high voltage
All pins
V
IH
2.0
--
V
IO_VDD
+2V
V
Note: All 3.3 volt supplies must rise prior to the rise of the 1.25 volt supplies to avoid a high current
condition and possible system damage.
Input low voltage
All pins
V
IL
0.3
--
0.8
V
Input leakage current (All pins)
I
IN
--
--
84
A
Clock pin Input Capacitance (EXTAL)
C
IN
3.749
pF
High impedance (off-state) input current (@
3.46 V)
I
TSI
84
--
84
A
Output high voltage
V
OH
2.4
--
--
V
Output low voltage
V
OL
--
--
0.4
V
Internal supply current
1
at internal clock of
181MHz
In Normal mode
I
CCI
--
99
200
mA
In Wait mode
I
CCW
--
48
150
mA
In Stop mode
3
I
CCS
--
2.5
82
mA
IO supply current
--
115
150
mA
Input capacitance
4
C
IN
--
--
10
pF
Note:
1.
The
Power Consumption Considerations
section provides a formula to compute the estimated
current requirements in Normal mode. In order to obtain these results, all inputs must be terminated
(i.e., not allowed to float). Measurements are based on synthetic intensive DSP benchmarks. The
power consumption numbers in this specification are 90% of the measured results of this
benchmark. This reflects typical DSP applications. Typical internal supply current is measured with
V
CORE_VDD
= 1.25V, V
DD_IO
= 3.3V at T
J
= 25C. Maximum internal supply current is measured
with V
CORE_VDD
= 1.30V, V
IO_VDD)
= 3.46V at T
J
= 115C.
2.
In order to obtain these results, all inputs, which are not disconnected at Stop mode, must be
terminated (i.e., not allowed to float).
3.
Periodically sampled and not 100% tested
4.
T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; CL=50pF
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AC Electrical Characteristics
MOTOROLA
DSP56371 Technical Data
5
6.0
AC Electrical Characteristics
The timing waveforms shown in the AC electrical characteristics section are tested with a V
IL
maximum of
0.8V and a V
IH
minimum of 2.0V for all pins. AC timing specifications, which are referenced to a device
input signal, are measured in production with respect to the 50% point of the respective input signal's
transition. DSP56371 output levels are measured with the production test machine V
OL
and V
OH
reference
levels set at 1.0V and 1.8V, respectively.
NOTE: Although the minimum value for the frequency of EXTAL is 0 MHz (PLL bypassed), the
device AC test conditions are 5 MHz and rated speed.
7.0
Internal Clocks
Table 4 INTERNAL CLOCKS
No.
Characteristics
Symbol
Min
Typ
Max UNIT
Condition
1
Comparison Frequency
Fref[1]
5
--
20
MHZ
Fref = FN/NR
2
Input Clock Frequency
FIN
Fref*NR
NR is input divider
value
3
Output clock Frequency
(with PLL enabled[2] [3]
FOUT
75
(1000/Etc
MF x
FM)/
(PDF
DF x OD)
--
MHZ
FOUT=FVCO/NO
where NO is output
divider value
4
Output clock Frequency
(with PLL disabled[2] [3]
FOUT
--
1000/Etc
--
MHZ
---
5
Duty Cycle
--
40
50
60
%
FVCO=300MHZ~60
0MHZ
Note:
1.
See users manual for definition.
2.
DF = Division Factor
Ef = External frequency
MF = Multiplication Factor
PDF = Predivision Factor
FM= Feedback Multiplier
OD = Output Divider
3.
Maximum frequency will vary depending on the ordered part number.
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External Clock Operation
6
DSP56371 Technical Data
MOTOROLA
8.0
External Clock Operation
The DSP56371 system clock is an externally supplied square wave voltage source connected to EXTAL
(see
Figure 1
).
.
Figure 1 E
xternal Clock Timing
Table 5 Clock Operation 150 and 181 MHz Values
No.
Characteristics
Symbol
150 MHz
181 MHz
Min
Max
Min
Max
6
EXTAL input high
1,2
(40% to 60% duty cycle)
Eth
3.33ns
100ns
2.75ns
100ns
7
EXTAL input low
1,2
(40% to 60% duty cycle)
Etl
3.33ns
100ns
2.75ns
100ns
8
EXTAL cycle time
2
With PLL disabled
With PLL enabled
Etc
6.66ns
6.66ns
inf
200ns
5.52ns
5.52ns
inf
200ns
9
Instruction cycle time= I
CYC
= T
C
3
With PLL disabled
With PLL enabled
Icyc
6.66ns
6.66ns
inf
13.0ns
5.52ns
5.52ns
inf
13.0ns
Note:
1.
Measured at 50% of the input transition
2.
The maximum value for PLL enabled is given for minimum V
CO
and maximum MF.
3.
The maximum value for PLL enabled is given for minimum V
CO
and maximum DF.
4.
The indicated duty cycle is for the specified maximum frequency for which a part is rated. The
minimum clock high or low time required for correct operation, however, remains the same at lower
operating frequencies; therefore, when a lower clock frequency is used, the signal symmetry may vary
from the specified duty cycle as long as the minimum high time and low time requirements are met.
EXTAL
V
IL
V
IH
Midpoint
Note:
The midpoint is 0.5 (V
IH
+ V
IL
).
ETH
ETL
ETC
7
8
6
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Reset, Stop, Mode Select, and Interrupt Timing
MOTOROLA
DSP56371 Technical Data
7
9.0
Reset, Stop, Mode Select, and Interrupt Timing
Table 6 Reset, Stop, Mode Select, and Interrupt Timing
No.
Characteristics
Expression
Min
Max
Unit
10
Delay from RESET assertion to all output
pins at reset value
3
--
--
11
ns
11
Required RESET duration
4
Power on, external clock
generator, PLL disabled
2 x T
C
11.1
--
ns
Power on, external clock
generator, PLL enabled
2 x T
C
11.1
--
ns
12
Syn reset setup time from RESET
Maximum
T
C
--
5.5
ns
13
Syn reset de assert delay time
Minimum
Maximum(PLL enabled)
2
T
C
(2xT
C
)+T
LOCK
11.1
5.0
--
ns
ms
14
Mode select setup time
10.0
--
ns
15
Mode select hold time
10.0
--
ns
16
Minimum edge-triggered interrupt request
assertion width
2 xT
C
11.1
--
ns
17
Minimum edge-triggered interrupt request
deassertion width
2 xT
C
11.1
--
ns
18
Delay from interrupt trigger to interrupt
code execution.
10 xT
C
+ 5
60.0
ns
19
Duration of level sensitive IRQA assertion
to ensure interrupt service (when exiting
Stop)
2, 3
PLL is active during Stop and Stop
delay is enabled
(OMR Bit 6 = 0)
9+(128K
T
C
)
704
--
us
PLL is active during Stop and Stop
delay is not enabled
(OMR Bit 6 = 1)
25
T
C
138
--
ns
PLL is not active during Stop and
Stop delay is enabled (OMR Bit 6
= 0)
9+(128KxT
C
)+T
lock
5.7
ms
PLL is not active during Stop and
Stop delay is not enabled (OMR
Bit 6 = 1)
(25 x T
C
)+T
lock
5
ms
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Reset, Stop, Mode Select, and Interrupt Timing
8
DSP56371 Technical Data
MOTOROLA
20
Delay from IRQA, IRQB, IRQC,
IRQD, NMI assertion to
general-purpose transfer output
valid caused by first interrupt
instruction execution
10 x T
C
+ 3.0
59.0
ns
21
Interrupt Requests Rate
ESAI, ESAI_1, SHI, DAX, Timer
12 x T
C
--
--
ns
DMA
8 x T
C
--
--
ns
IRQ, NMI (edge trigger)
8 x T
C
--
--
ns
IRQ (level trigger)
12 c T
C
--
--
ns
22
DMA Requests Rate
Data read from ESAI, ESAI_1,
SHI, DAX
6 x T
C
--
--
ns
Data write to ESAI, ESAI_1, SHI,
DAX
7 x T
C
--
--
ns
Timer
2 x T
C
--
--
ns
IRQ, NMI (edge trigger)
3 x T
C
--
--
ns
Note:
1.
When using fast interrupts and IRQA, IRQB, IRQC, and IRQD are defined as level-sensitive, timings
19 through 21 apply to prevent multiple interrupt service. To avoid these timing restrictions, the
deasserted Edge-triggered mode is recommended when using fast interrupts. Long interrupts are
recommended when using Level-sensitive mode.
2.
For PLL disable, using external clock (PCTL Bit 13 = 0), no stabilization delay is required and recovery
time will be defined by the OMR Bit 6 settings.
For PLL enable, (if bit 12 of the PCTL register is 0), the PLL is shutdown during Stop. Recovering from
Stop requires the PLL to get locked. The PLL lock procedure duration, PLL Lock Cycles (PLC), may be
in the range of 0.5 ms.
3.
Periodically sampled and not 100% tested
4.
RESET duration is measured during the time in which RESET is asserted, V
DD
is valid, and the
EXTAL input is active and valid. When the V
DD
is valid, but the other "required RESET duration"
conditions (as specified above) have not been yet met, the device circuitry will be in an uninitialized
state that can result in significant power consumption and heat-up. Designs should minimize this state
to the shortest possible duration.
Table 6 Reset, Stop, Mode Select, and Interrupt Timing (continued)
No.
Characteristics
Expression
Min
Max
Unit
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Reset, Stop, Mode Select, and Interrupt Timing
MOTOROLA
DSP56371 Technical Data
9
Figure 2 Reset Timing
Figure 3 Recovery from Stop State Using IRQA Interrupt Service
Figure 4 External Interrupt Timing (Negative Edge-Triggered)
V
IH
RESET
Reset Value
All Pins
10
11
13
RESET
MODA, MODB,
MODC, MODD,
PINIT
V
IH
IRQA, IRQB,
IRQD, NMI
V
IH
V
IL
V
IH
V
IL
14
15
IRQA, IRQB,
IRQC, IRQD,
NMI
IRQA, IRQB,
IRQC, IRQD,
NMI
16
17
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Serial Host Interface SPI Protocol Timing
10
DSP56371 Technical Data
MOTOROLA
Figure 5 External Fast Interrupt Timing
10.0
Serial Host Interface SPI Protocol Timing
Table 7 Serial Host Interface SPI Protocol Timing
No.
Characteristics
1
Mode
Expression
Min
Max
Unit
23
Minimum serial clock cycle =
t
SPICC
(min)
Master
6
T
C
+46
79.0
--
ns
24
Serial clock high period
Master
0.5
t
SPICC
10
29.5
--
ns
Slave
2.5
T
C
+12
25.8
--
ns
25
Serial clock low period
Master
0.5
t
SPICC
10
29.5
--
ns
Slave
2.5
T
C
+12
25.8
--
ns
26
Serial clock rise/fall time
Master
--
--
10
ns
Slave
--
--
10
ns
27
SS assertion to first SCK edge
CPHA = 0
Slave
3.5
T
C
+15
34.4
--
ns
CPHA = 1
Slave
--
10
--
ns
a) First Interrupt Instruction Execution
General
Purpose
I/O
IRQA, IRQB,
IRQC, IRQD,
NMI
b) General Purpose I/O
IRQA, IRQB,
IRQC, IRQD,
NMI
18
19
20
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Serial Host Interface SPI Protocol Timing
MOTOROLA
DSP56371 Technical Data
11
28
Last SCK edge to SS not asserted
Slave
--
12
--
ns
29
Data input valid to SCK edge (data
input set-up time)
Master/
Slave
--
0
--
ns
30
SCK last sampling edge to data input
not valid
Master/
Slave
2
T
C
+10
22.4
--
ns
31
SS assertion to data out active
Slave
--
5
--
ns
32
SS deassertion to data high
impedance
2
Slave
--
--
9
ns
33
SCK edge to data out valid
(data out delay time)
Master/
Slave
2
T
C
+10
--
100
ns
34
SCK edge to data out not valid
(data out hold time)
Master/
Slave
2xT
C
+10
21.4
--
ns
35
SS assertion to data out valid
(CPHA = 0)
Slave
T
C
+9
--
15.0
ns
36
First SCK sampling edge to HREQ out-
put deassertion
Slave
3
T
C
+30
50
--
ns
37
Last SCK sampling edge to HREQ out-
put not deasserted (CPHA = 1)
Slave
4
T
C
+30
52.2
--
ns
38
SS deassertion to HREQ output not
deasserted (CPHA = 0)
Slave
3
T
C
+30
46.6
--
ns
39
SS deassertion pulse width (CPHA =
0)
Slave
T
C
+6
12.7
--
ns
40
HREQ in assertion to first SCK edge
Master
0.5
t
SPICC
+
3
T
C
+43
--
--
ns
41
HREQ in deassertion to last SCK sam-
pling edge (HREQ in set-up time)
(CPHA = 1)
Master
--
0
--
ns
42
First SCK edge to HREQ in not
asserted
(HREQ in hold time)
Master
--
0
--
ns
43
HREQ assertion width
Master
3 x T
C
ns
Note:
1.
V
CORE_VDD
= 1.2 5
0.05 V; T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; C
L
= 50 pF
2.
Periodically sampled, not 100% tested
Table 7 Serial Host Interface SPI Protocol Timing (continued)
No.
Characteristics
1
Mode
Expression
Min
Max
Unit
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Serial Host Interface SPI Protocol Timing
12
DSP56371 Technical Data
MOTOROLA
Figure 6 SPI Master Timing (CPHA = 0)
SS
(Input)
SCK (CPOL = 0)
(Output)
SCK (CPOL = 1)
(Output)
MISO
(Input)
Valid
MOSI
(Output)
MSB
Valid
LSB
MSB
LSB
HREQ
(Input)
23
24
25
26
26
23
26
26
25
24
29
30
30
29
33
34
42
40
71
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Serial Host Interface SPI Protocol Timing
MOTOROLA
DSP56371 Technical Data
13
Figure 7 SPI Master Timing (CPHA = 1)
SS
(Input)
SCK (CPOL = 0)
(Output)
SCK (CPOL = 1)
(Output)
MISO
(Input)
Valid
MOSI
(Output)
MSB
Valid
LSB
MSB
LSB
HREQ
(Input)
23
24
25
26
26
23
26
26
25
24
29
29
30
33
34
42
40
41
30
2
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Serial Host Interface SPI Protocol Timing
14
DSP56371 Technical Data
MOTOROLA
Figure 8 SPI Slave Timing (CPHA = 0)
SS
(Input)
SCK (CPOL = 0)
(Input)
SCK (CPOL = 1)
(Input)
MISO
(Output)
MOSI
(Input)
MSB
LSB
MSB
LSB
HREQ
(Output)
23
24
25
26
26
23
26
26
25
24
35
31
33
34
29
30
38
36
34
32
Valid
Valid
29
30
28
39
27
73
F
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Serial Host Interface SPI Protocol Timing
MOTOROLA
DSP56371 Technical Data
15
Figure 9 SPI Slave Timing (CPHA = 1)
SS
(Input)
SCK (CPOL = 0)
(Input)
SCK (CPOL = 1)
(Input)
MISO
(Output)
MOSI
(Input)
MSB
LSB
MSB
LSB
HREQ
(Output)
23
24
25
26
26
27
26
25
24
31
33
29
30
37
34
32
Valid
Valid
29
28
27
33
30
36
74
F
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Serial Host Interface (SHI) I
2
C Protocol Timing
16
DSP56371 Technical Data
MOTOROLA
11.0
Serial Host Interface (SHI) I
2
C Protocol Timing
Table 8 SHI I
2
C Protocol Timing
Standard I
2
C*
No.
Characteristics
1
Symbol/
Expression
Standard
Fast-Mode
Unit
Min
Max
Min
Max
44
SCL clock frequency
F
SCL
--
100
--
400
kHz
44
SCL clock cycle
T
SCL
10
--
2.5
--
s
45
Bus free time
T
BUF
4.7
--
1.3
--
s
46
Start condition set-up time
T
SUSTA
4.7
--
0.6
--
s
47
Start condition hold time
T
HD;STA
4.0
--
0.6
--
s
48
SCL low period
T
LOW
4.7
--
1.3
--
s
49
SCL high period
T
HIGH
4.0
--
1.3
--
s
50
SCL and SDA rise time
T
R
--
10
--
10
ns
51
SCL and SDA fall time
T
F
--
10
--
10
ns
52
Data set-up time
T
SU;DAT
250
--
100
--
ns
53
Data hold time
T
HD;DAT
0.0
--
0.0
0.9
s
54
DSP clock frequency
F
OSC
10.6
--
28.5
--
MHz
55
SCL low to data out valid
T
VD;DAT
--
3.4
--
0.9
s
56
Stop condition setup time
T
SU;STO
4.0
--
0.6
--
s
57
HREQ in deassertion to last SCL edge
(HREQ in set-up time)
t
SU;RQI
0.0
--
0.0
--
ns
58
First SCL sampling edge to HREQ output
deassertion
T
NG;RQO
4
T
C
+ 30
--
--
--
--
ns
59
Last SCL edge to HREQ output not deas-
serted
T
AS;RQO
2
T
C
+ 30
50
--
50
--
ns
F
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Serial Host Interface (SHI) I
2
C Protocol Timing
MOTOROLA
DSP56371 Technical Data
17
11.1
Programming the Serial Clock
The programmed serial clock cycle, T
I
2
CCP
, is specified by the value of the HDM[7:0] and HRS bits of the
HCKR (SHI clock control register).
The expression for T
I
2
CCP
is
T
I
2
CCP
= [T
C
2 (HDM[7:0] + 1) (7 (1 HRS) + 1)]
where
-- HRS is the pr-scaler rate select bit. When HRS is cleared, the fixed
divide-by-eight pre-scaler is operational. When HRS is set, the pre-scaler is bypassed.
-- HDM[7:0] are the divider modulus select bits. A divide ratio from 1 to 256 (HDM[7:0] = $00 to
$FF) may be selected.
In I
2
C mode, the user may select a value for the programmed serial clock cycle from
6
T
C
(if HDM[7:0] = $02 and HRS = 1)
to
4096
T
C
(if HDM[7:0] = $FF and HRS = 0)
The programmed serial clock cycle (T
I
2
CCP
), SCL rise time (T
R
), should be chosen in order to achieve the
desired SCL serial clock cycle (T
SCL
), as shown in
Table 9
.
60
HREQ in assertion to first SCL edge
T
AS;RQI
0.5
T
I
2
CCP
-0.5
T
C
- 21
4327
--
927
--
ns
61
First SCL edge to HREQ in not asserted
(HREQ in hold time.)
t
HO;RQI
0.0
--
0.0
--
ns
Note:
1.
VCORE_VDD = 1.2 5 0.05 V; T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; CL = 50 pF
Table 8 SHI I
2
C Protocol Timing (continued)
Standard I
2
C*
No.
Characteristics
1
Symbol/
Expression
Standard
Fast-Mode
Unit
Min
Max
Min
Max
F
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Serial Host Interface (SHI) I
2
C Protocol Timing
18
DSP56371 Technical Data
MOTOROLA
Figure 10 I
2
C Timing
Start
SCL
HREQ
SDA
ACK
MSB
LSB
Stop
44
Stop
46
49
48
50
51
53
52
45
58
55
56
61
47
60
57
59
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Enhanced Serial Audio Interface Timing
MOTOROLA
DSP56371 Technical Data
19
12.0
Enhanced Serial Audio Interface Timing
Table 9 Enhanced Serial Audio Interface Timing
No.
Characteristics
1, 2, 3
Symbol
Expression
3
Min
Max
Condition
4
Unit
62
Clock cycle
5
t
SSICC
4
Tc
22.3
--
i ck
ns
4
Tc
22.3
--
x ck
SCKT:max[(3*T
C
) or t87]
26.5
--
x ck
63
Clock high period
For internal clock
--
2
Tc
- 10.0
3.4
--
ns
For external clock
2
Tc
10.0
--
64
Clock low period
For internal clock
--
2
Tc
- 10.0
3.4
--
ns
For external clock
2
Tc
10.0
--
65
SCKR rising edge to FSR out (bl) high
--
--
--
--
37.0
22.0
x ck
i ck a
ns
66
SCKR rising edge to FSR out (bl) low
--
--
--
--
37.0
22.0
x ck
i ck a
ns
67
SCKR rising edge to FSR out (wr) high
6
--
--
--
--
39.0
24.0
x ck
i ck a
ns
68
SCKR rising edge to FSR out (wr) low
6
--
--
--
--
39.0
24.0
x ck
i ck a
ns
69
SCKR rising edge to FSR out (wl) high
--
--
--
--
36.0
21.0
x ck
i ck a
ns
70
SCKR rising edge to FSR out (wl) low
--
--
--
--
37.0
22.0
x ck
i ck a
ns
71
Data in setup time before SCKR (SCK
in synchronous mode) falling edge
--
--
0.0
19.0
--
--
x ck
i ck
ns
72
Data in hold time after SCKR falling
edge
--
--
5.0
3.0
--
--
x ck
i ck
ns
73
FSR input (bl, wr) high before SCKR
falling edge
6
--
--
1.0
23.0
--
--
x ck
i ck a
ns
74
FSR input (wl) high before SCKR falling
edge
--
--
1.0
23.0
--
--
x ck
i ck a
ns
75
FSR input hold time after SCKR falling
edge
--
--
3.0
0.0
--
--
x ck
i ck a
ns
F
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Enhanced Serial Audio Interface Timing
20
DSP56371 Technical Data
MOTOROLA
76
Flags input setup before SCKR falling
edge
--
--
0.0
19.0
--
--
x ck
i ck s
ns
77
Flags input hold time after SCKR falling
edge
--
--
6.0
0.0
--
--
x ck
i ck s
ns
78
SCKT rising edge to FST out (bl) high
--
--
--
--
29.0
15.0
x ck
i ck
ns
79
SCKT rising edge to FST out (bl) low
--
--
--
--
31.0
17.0
x ck
i ck
ns
80
SCKT rising edge to FST out (wr) high
6
--
--
--
--
31.0
17.0
x ck
i ck
ns
82
SCKT rising edge to FST out (wr) low
6
--
--
--
--
33.0
19.0
x ck
i ck
ns
83
SCKT rising edge to FST out (wl) high
--
--
--
--
30.0
16.0
x ck
i ck
ns
84
SCKT rising edge to FST out (wl) low
--
--
--
--
31.0
17.0
x ck
i ck
ns
85
SCKT rising edge to data out enable
from high impedance
--
--
--
--
31.0
17.0
x ck
i ck
ns
86
SCKT rising edge to transmitter #0
drive enable assertion
--
--
--
--
34.0
20.0
x ck
i ck
ns
87
SCKT rising edge to data out valid
--
--
--
--
26.5
21.0
x ck
i ck
ns
88
SCKT rising edge to data out high
impedance
7
--
--
--
--
31.0
16.0
x ck
i ck
ns
89
SCKT rising edge to transmitter #0
drive enable deassertion
7
--
--
--
--
34.0
20.0
x ck
i ck
ns
90
FST input (bl, wr) setup time before
SCKT falling edge
6
--
--
2.0
21.0
--
--
x ck
i ck
ns
91
FST input (wl) to data out enable from
high impedance
--
--
--
27.0
--
ns
92
FST input (wl) to transmitter #0 drive
enable assertion
--
--
--
31.0
--
ns
93
FST input (wl) setup time before SCKT
falling edge
--
--
2.0
21.0
--
--
x ck
i ck
ns
94
FST input hold time after SCKT falling
edge
--
--
4.0
0.0
--
--
x ck
i ck
ns
95
Flag output valid after SCKT rising
edge
--
--
--
--
32.0
18.0
x ck
i ck
ns
Table 9 Enhanced Serial Audio Interface Timing (continued)
No.
Characteristics
1, 2, 3
Symbol
Expression
3
Min
Max
Condition
4
Unit
F
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e
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s
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a
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S
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Enhanced Serial Audio Interface Timing
MOTOROLA
DSP56371 Technical Data
21
96
HCKR/HCKT clock cycle
--
2 x T
C
40.0
--
ns
97
HCKT input rising edge to SCKT output
--
--
--
18.0
ns
98
HCKR input rising edge to SCKR output
--
--
--
18.0
ns
Note:
1.
V
CORE_VDD
= 1.25
0.05 V; T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; C
L
= 50 pF
2.
i ck = internal clock
x ck = external clock
i ck a = internal clock, asynchronous mode
(asynchronous implies that SCKT and SCKR are two different clocks)
i ck s = internal clock, synchronous mode
(synchronous implies that SCKT and SCKR are the same clock)
3.
bl = bit length
wl = word length
wr = word length relative
4.
SCKT(SCKT pin) = transmit clock
SCKR(SCKR pin) = receive clock
FST(FST pin) = transmit frame sync
FSR(FSR pin) = receive frame sync
HCKT(HCKT pin) = transmit high frequency clock
HCKR(HCKR pin) = receive high frequency clock
5.
For the internal clock, the external clock cycle is defined by Icyc and the ESAI control register.
6.
The word-relative frame sync signal waveform relative to the clock operates in the same manner as the
bit-length frame sync signal waveform, but spreads from one serial clock before first bit clock (same as
bit length frame sync signal), until the one before last bit clock of the first word in frame.
7.
Periodically sampled and not 100% tested
8.
ESAI_1 specs match those of ESAI_0
Table 9 Enhanced Serial Audio Interface Timing (continued)
No.
Characteristics
1, 2, 3
Symbol
Expression
3
Min
Max
Condition
4
Unit
F
r
e
e
s
c
a
l
e
S
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m
i
c
o
n
d
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c
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Enhanced Serial Audio Interface Timing
22
DSP56371 Technical Data
MOTOROLA
Figure 11 ESAI Transmitter Timing
Last Bit
See Note
SCKT
(Input/Output
)
FST (Bit)
Out
FST (Word)
Out
Data Out
Transmitter
#0 Drive
Enable
FST (Bit) In
FST (Word)
In
Flags Out
Note:
In network mode, output flag transitions can occur at the start of each time slot
within the frame. In normal mode, the output flag state is asserted for the entire
frame period.
First Bit
62
64
78
79
83
84
88
87
87
85
92
89
86
94
90
91
93
94
95
63
F
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Enhanced Serial Audio Interface Timing
MOTOROLA
DSP56371 Technical Data
23
Figure 12 ESAI Receiver Timing
Figure 13 ESAI HCKT Timing
SCKR
(Input/Output)
FSR (Bit)
Out
FSR (Word)
Out
Data In
FSR (Bit)
In
FSR (Word)
In
Flags In
Last Bit
First Bit
62
64
65
69
70
72
71
75
73
74
75
77
76
63
66
HCKT
SCKT(output)
97
96
F
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Digital Audio Transmitter Timing
24
DSP56371 Technical Data
MOTOROLA
Figure 14 ESAI HCKR Timing
13.0
Digital Audio Transmitter Timing
Figure 15 Digital Audio Transmitter Timing
Table 10 Digital Audio Transmitter Timing
No.
Characteristic
Expression
181 MHz
Unit
Min
Max
99
ACI frequency (see note)
1 / (2 x T
C
)
--
90
MHz
100
ACI period
2
T
C
11.1
--
ns
101
ACI high duration
0.5
T
C
2.8
--
ns
102
ACI low duration
0.5
T
C
2.8
--
ns
103
ACI rising edge to ADO valid
1.5
T
C
--
8.3
ns
Note:
In order to assure proper operation of the DAX, the ACI frequency should be less than 1/2 of
theDSP56371 internal clock frequency. For example, if the DSP56371 is running at 181 MHz
internally, the ACI frequency should be less than 90MHz.
HCKR
SCKR (output)
98
96
ACI
ADO
100
103
101
102
F
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Timer Timing
MOTOROLA
DSP56371 Technical Data
25
14.0
Timer Timing
Figure 16 TIO Timer Event Input Restrictions
15.0
GPIO Timing
Table 11 Timer Timing
No.
Characteristics
Expression
181 MHz
Unit
Min
Max
104
TIO Low
2
T
C
+ 2.0
13
--
ns
105
TIO High
2
T
C
+ 2.0
13
--
ns
Note:
V
CORE_VDD
=
1.25 V
0.05
V; T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; C
L
= 50 pF
Table 12 GPIO Timing
No.
Characteristics
1
Expression
Min
Max
Unit
106 FOSC edge to GPIO out valid (GPIO out delay time)
--
7
ns
107 FOSC edge to GPIO out not valid (GPIO out hold time)
----
7
ns
108 FOSC In valid to EXTAL edge (GPIO in set-up time)
2
---
ns
109 FOSC edge to GPIO in not valid (GPIO in hold time)
0
---
ns
110 Minimum GPIO pulse high width (except Port F)
2 x T
C
11.1
--
ns
111 Minimum GPIO pulse low width (except Port F)
2 x T
C
11.1
ns
112 Minimum GPIO pulse low width (port F)
6 x T
C
33.3
ns
113 Minimum GPIO pulse high width (port F)
6 x T
C
33.3
ns
114 GPIO out rise time
--
--
13
ns
115 GPIO out fall time
--
--
13
ns
Note:
1.
V
CORE_VDD
= 1.25 V
0.05 V; T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; C
L
= 50
pF
TIO
105
104
F
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JTAG Timing
26
DSP56371 Technical Data
MOTOROLA
Figure 17 GPIO Timing
16.0
JTAG Timing
Table 13 JTAG Timing
No.
Characteristics
All frequencies
Unit
Min Max
116 TCK frequency of operation (1/(T
C
6); maximum 22 MHz)
0.0
22.0
MHz
117 TCK cycle time
45.0
--
ns
118 TCK clock pulse width
20.0
--
ns
119 TCK rise and fall times
0.0
10.0
ns
120 TCK low to output data valid
0.0
40.0
ns
121 TCK low to output high impedance
0.0
40.0
ns
122 TMS, TDI data setup time
5.0
--
ns
123 TMS, TDI data hold time
25.0
--
ns
124 TCK low to TDO data valid
0.0
44.0
ns
125 TCK low to TDO high impedance
0.0
44.0
ns
Note:
1.
V
CORE_VDD
= 1.25 V
0.05 V; T
J
= 40C to 115C for 150 MHz; T
J
= 0C to 100C for 181 MHz; C
L
= 50 pF
2.
All timings apply to OnCE module data transfers because it uses the JTAG port as an interface.
Valid
GPIO
(Input)
GPIO
(Output)
FOSC
106
107
108
109
GPIO
(Output)
110
111
112
113
F
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JTAG Timing
MOTOROLA
DSP56371 Technical Data
27
Figure 18 Test Clock Input Timing Diagram
Figure 19 Debugger Port Timing Diagram
TCK
(Input)
V
M
V
M
V
IH
V
IL
117
118
118
119
119
TCK
(Input)
Data
Inputs
Data
Outputs
Data
Outputs
Data
Outputs
VIH
VIL
Input Data Valid
Output Data Valid
Output Data Valid
123
122
120
121
120
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JTAG Timing
28
DSP56371 Technical Data
MOTOROLA
Figure 20 Test Access Port Timing Diagram
TCK
(Input)
TDI
(Input)
TDO
(Output)
TDO
(Output)
TDO
(Output)
VIH
VIL
Input Data Valid
Output Data Valid
Output Data Valid
TMS
122
123
124
125
124
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Package Information
MOTOROLA
DSP56371 Technical Data
29
17.0
Package Information
.
Figure 21 DSP56371 Pinout
60
FST_PE4
59
SDO5_SDI0_PE
58
SDO4_SDI1_PE
57
SDO3_SDI2_PE
56
SDO2_SDI3_PE
55
SDO1_PE10
54
SDO0_PE11
53
CORE_GND
52
CORE_VDD
51
MODA_IRQA
50
MODB_IRQB
49
MODC_IRQC
48
MODD_IRQD
47
RESET_B
46
PINIT_NMI
45
EXTAL
44
PLLD_VDD
43
PLLD_GND
42
PLLP_GND
41
PLLP_VDD
PF9
21
SCA
N
22
PF10
23
IO_
GND
24
IO_
VDD
25
TI
O0_
PB0
26
TI
O1_
PB1
27
CORE
_GND
28
CORE
_V
DD
29
TD
O
30
TDI
31
TC
K
32
TM
S
33
M
O
SI
_H
A0
34
MI
SO
_
S
D
A
35
SC
K_
S
C
L
36
SS
_H
A2
37
HRE
Q
38
PL
LA_
V
D
D
39
PL
LA_
G
N
D
40
SDO4_SDI1_PC7
1
IO_GND
2
IO_VDD
3
SDO3_SDI2_PC8
4
SDO2_SDI3_PC9
5
SDO1_PC10
6
SDO0_PC11
7
CORE_VDD
8
PF8
9
PF6
10
PF7
11
CORE_GND
12
PF2
13
PF3
14
PF4
15
PF5
16
IO_VDD
17
PF1
18
PF0
19
GND
20
80
S
D
O
5
_S
DI
0_
P
C
6
79
FS
T
_
P
C
4
78
FS
R
_
P
C
1
77
SC
KT_P
C
3
76
SC
KR
_P
C0
75
IO_V
D
D
74
IO_G
N
D
73
HC
K
T
_
P
C
5
72
HC
K
R_
P
C
2
71
CO
RE
_V
DD
70
AC
I_P
D
0
69
AD
O_P
D
1
68
CO
RE
_G
N
D
67
HC
K
R
_
PE2
66
H
C
KT
_P
E5
65
IO_G
N
D
64
IO_V
D
D
63
SC
KR
_P
E0
62
SC
KT_P
E3
61
FS
R
_
P
E
1
ESAI
ESAI_1
DAX
Int/Mod
PLL
SHI
OnCE
Timer
GPIO
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Package Information
30
DSP56371 Technical Data
MOTOROLA
Table 14 Signal Identification by Pin Number
Pin
No.
Signal Name
Pin
No
Signal Name
Pin
No
Signal Name
Pin
No
Signal Name
1
SDO4_SDI1_PC7
21
PF9
41
PLLP_VDD
61
FSR_PE1
2
IO_GND
22
SCAN
42
PLLP_GND
62
SCKT_PE3
3
IO_VDD
23
PF10
43
PLLD_GND
63
SCKR_PE0
4
SDO3_SDI2_PC8
24
IO_GND
44
PLLD_VDD
64
IO_VDD
5
SDO2_SDI3_PC9
25
IO_VDD
45
EXTAL
65
IO_GND
6
SDO1_PC10
26
TI0_PB0
46
PINIT_NMI
66
HCKT_PE5
7
SDO0_PC11
27
TI0_PB1
47
RESET_B
67
HCKR_PE2
8
CORE_VDD
28
CORE_GND
48
MODD_IRQD
68
CORE_GND
9
PF8
29
CORE_VDD
49
MODC_IRQC
69
ADO_PD1
10
PF6
30
TDO
50
MODB_IRQB
70
ADI_PD0
11
PF7
31
TDI
51
MODA_IRQA
71
CORE_VDD
12
CORE_GND
32
TCK
52
CORE_VDD
72
HCKR_PC2
13
PF2
33
TMS
53
CORE_GND
73
HCKT2_PC5
14
PF3
34
MOSI_HA0
54
SDO0_PE11
74
IO_GND
15
PF4
35
MISO_SDA
55
SDO1_PE10
75
IO_VDD
16
PF5
36
SCK_SCL
56
SDO2_SDI3_PE9
76
SCKR_PC0
17
IO_VDD
37
SS_HA2
57
SDO3_SDI2_PE8
77
SCKT_PC3
18
PF1
38
HREQ
58
SDO4_SDI1_PE7
78
FSR_PC1
19
PF0
39
PLLA_VDD
59
SDO5_SD10_PE6
79
FST_PC4
20
GND
40
PLLA_GND
60
FST_PE4
80
SDO5_SDI10_PC6
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Package Information
MOTOROLA
DSP56371 Technical Data
31
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Package Information
32
DSP56371 Technical Data
MOTOROLA
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Package Information
MOTOROLA
DSP56371 Technical Data
33
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Design Considerations
34
DSP56371 Technical Data
MOTOROLA
18.0
Design Considerations
18.1
Thermal Design Considerations
An estimation of the chip junction temperature, T
J
, in
C can be obtained from the following equation:
Where: T
A
= ambient temperature
C
R
qJA
= package junction-to-ambient thermal resistance
C/W
P
D
= power dissipation in package W
Historically, thermal resistance has been expressed as the sum of a junction-to-case thermal resistance
and a case-to-ambient thermal resistance.
Where: R
JA
= package junction-to-ambient thermal resistance C/W
R
JC
= package junction-to-case thermal resistance C/W
R
CA
= package case-to-ambient thermal resistance C/W
R
JC
is device-related and cannot be influenced by the user. The user controls the thermal environment to
change the case-to-ambient thermal resistance, R
CA
. For example, the user can change the air flow
around the device, add a heat sink, change the mounting arrangement on the printed circuit board (PCB),
or otherwise change the thermal dissipation capability of the area surrounding the device on a PCB. This
model is most useful for ceramic packages with heat sinks; some 90% of the heat flow is dissipated
through the case to the heat sink and out to the ambient environment. For ceramic packages, in situations
where the heat flow is split between a path to the case and an alternate path through the PCB, analysis of
the device thermal performance may need the additional modeling capability of a system level thermal
simulation tool.
The thermal performance of plastic packages is more dependent on the temperature of the PCB to which
the package is mounted. Again, if the estimations obtained from R
JA
do not satisfactorily answer whether
the thermal performance is adequate, a system level model may be appropriate.
A complicating factor is the existence of three common ways for determining the junction-to-case thermal
resistance in plastic packages.
To minimize temperature variation across the surface, the thermal resistance is measured from the
junction to the outside surface of the package (case) closest to the chip mounting area when that
surface has a proper heat sink.
To define a value approximately equal to a junction-to-board thermal resistance, the thermal
resistance is measured from the junction to where the leads are attached to the case.
If the temperature of the package case (T
T
) is determined by a thermocouple, the thermal
resistance is computed using the value obtained by the equation
(T
J
T
T
)/P
D
.
As noted above, the junction-to-case thermal resistances quoted in this data sheet are determined using
the first definition. From a practical standpoint, that value is also suitable for determining the junction
temperature from a case thermocouple reading in forced convection environments. In natural convection,
using the junction-to-case thermal resistance to estimate junction temperature from a thermocouple
reading on the case of the package will estimate a junction temperature slightly hotter than actual
TJ TA PD RJA
(
)
+
=
RJA RJC RCA
+
=
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Design Considerations
MOTOROLA
DSP56371 Technical Data
35
temperature. Hence, the new thermal metric, thermal characterization parameter or
JT
, has been defined
to be (T
J
T
T
)/P
D
. This value gives a better estimate of the junction temperature in natural convection
when using the surface temperature of the package. Remember that surface temperature readings of
packages are subject to significant errors caused by inadequate attachment of the sensor to the surface
and to errors caused by heat loss to the sensor. The recommended technique is to attach a 40-gauge
thermocouple wire and bead to the top center of the package with thermally conductive epoxy.
18.2
Electrical Design Considerations
Use the following list of recommendations to assure correct DSP operation:
Provide a low-impedance path from the board power supply to each V
CC
pin on the DSP and from
the board ground to each GND pin.
Use at least six 0.010.1
F bypass capacitors positioned as close as possible to the four sides of
the package to connect the V
CC
power source to GND.
Ensure that capacitor leads and associated printed circuit traces that connect to the chip V
CC
and
GND pins are less than 1.2 cm (0.5 inch) per capacitor lead.
Route the DVDD pin carefully to minimize noise.
Use at least a four-layer PCB with two inner layers for V
CC
and GND.
Because the DSP output signals have fast rise and fall times, PCB trace lengths should be minimal.
This recommendation particularly applies to the IRQA, IRQB, IRQC, and IRQD pins. Maximum PCB
trace lengths on the order of 15 cm (6 inches) are recommended.
Consider all device loads as well as parasitic capacitance due to PCB traces when calculating
capacitance. This is especially critical in systems with higher capacitive loads that could create
higher transient currents in the V
CC
and GND circuits.
Take special care to minimize noise levels on the V
CCP
and GND
P
pins.
If multiple DSP56371 devices are on the same board, check for cross-talk or excessive spikes on
the supplies due to synchronous operation of the devices.
RESET must be asserted when the chip is powered up. A stable EXTAL signal must be supplied
before deassertion of RESET.
At power-up, ensure that the voltage difference between the 3.3 V tolerant pins and the chip V
CC
never exceeds a 3.00 V.
CAUTION
This device contains circuitry protecting against
damage due to high static voltage or electrical
fields. However, normal precautions should be
taken to avoid exceeding maximum voltage
ratings. Reliability of operation is enhanced if
unused inputs are tied to an appropriate logic
voltage level (e.g., either GND or V
CC
). The
suggested value for a pullup or pulldown resistor
is 10 k ohm.
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Design Considerations
36
DSP56371 Technical Data
MOTOROLA
18.3
Power Consumption Considerations
Power dissipation is a key issue in portable DSP applications. Some of the factors which affect current
consumption are described in this section. Most of the current consumed by CMOS devices is alternating
current (ac), which is charging and discharging the capacitances of the pins and internal nodes.
Current consumption is described by the following formula:
where
C
= node/pin capacitance
V
= voltage swing
f
= frequency of node/pin toggle
The maximum internal current (I
CCI
max) value reflects the typical possible switching of the internal buses
on best-case operation conditions, which is not necessarily a real application case. The typical internal
current (I
CCItyp
) value reflects the average switching of the internal buses on typical operating conditions.
For applications that require very low current consumption, do the following:
Minimize the number of pins that are switching.
Minimize the capacitive load on the pins.
One way to evaluate power consumption is to use a current per MIPS measurement methodology to
minimize specific board effects (i.e., to compensate for measured board current not caused by the DSP).
Use the test algorithm, specific test current measurements, and the following equation to derive the current
per MIPS value.
where : I
typF2
= current at F2
I
typF1
= current at F1
F2
= high frequency (any specified operating frequency)
F1
= low frequency (any specified operating frequency lower than F2)
NOTE: F1 should be significantly less than F2. For example, F2 could be 66 MHz and F1 could be
33 MHz. The degree of difference between F1 and F2 determines the amount of precision
with which the current rating can be determined for an application.
Power Consumption Example
For a GPIO address pin loaded with 50 pF capacitance, operating at 3.3 V, and with a 150 MHz clock,
toggling at its maximum possible rate (75 MHz), the current consumption is
I
C V
f
=
I
50 10 12
3.3
75
106
12.375mA
=
=
I MIPS
/
I MHz
/
ItypF2 ItypF1
(
) F2 F1
(
)
/
=
=
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Power Consumption Benchmark
MOTOROLA
DSP56371 Technical Data
37
19.0
Power Consumption Benchmark
The following benchmark program permits evaluation of DSP power usage in a test situation.
;***********************************;********************************
;* ;* CHECKS Typical Power Consumption
;********************************************************************
ORG P:$000800
move #$000000,r1
move #$000000,r0
do #1024,ldmem
move r1,p:(r0)
move r1,y:(r0)+
ldmem nop
move #0,b1
;jmp $FF2AE0
;org P:$FF2AE0
move b1,y:>$100
move #$FF,B
move #>$AF080,X0
move #>$FF2AD6,r0
move #$0,r1
dor #6,loop1
move p:(r0)+,x1
move x0,p:(r1)+
move x1,p:(r1)+
nop
loop1
move #$0,vba
move #$0,sp
move #$0,sc
reset
move #$FFFFFF,m0
move m0,m1
move m0,m2
move m0,m3
move m0,m4
move m0,m5
move m0,m6
move m0,m7
move #>$102,ep
move #>$18,sz
move #>$110000,omr
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Power Consumption Benchmark
38
DSP56371 Technical Data
MOTOROLA
move #$300,sr
movep #>$F02000,X:$FFFFFF
movep #$187,X:$FFFFFE
;then sets up BCR and AAR registers
;then sets up PORTB and HDI08 PORT
andi #$FC,mr
;start running ROM intialisation stage
;jsr $FF1C7E
; Set green HLX zone table
jsr $FF1D64
; Run GPIONil function
jsr $FF2F82
; Initialise Green HLX
jsr $FF1FA1
; Disable DAX
move #>$15F,x1
move x1,P:$FF0D7F
; Run Green HLX
jmp $FF1FDB
nop
nop
nop
nop
nop
nop
dor forever,endprog
nop
nop
endprog nop
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IBIS Model
MOTOROLA
DSP56371 Technical Data
39
20.0
IBIS Model
[IBIS ver] 2.1
[File name] tpz013g3.ibs
[File Rev] 1.0
[Date] 07/30/2002
[Source] Made By 0.13uu HSPICE model.
[Disclaimer] This information is for modeling purposes only and is not
guaranteed.
[Copyright] Copyright 2002, Design Service, tsmc, All Rights Reserved.
|
|************************************************************************
| Component tpz013g3
|************************************************************************
(Pin)
signal_name model_name
1
SDO4_SDI1_PC7
PRD12DGZ
2
IO_GND
PVSS3DGZ
3
IO_VDD
PVDD2DGZ
4
SDO3_SDI2_PC8
PRD12DGZ
5
SDO2_SDI3_PC9
PRD12DGZ
6
SDO1_PC10
PRD12DGZ
7
SDO0_PC11
PRD12DGZ
8
CORE_VDD
PVDD1DGZ
9
PF8
PRD12DGZ
10
PF6
PRD12DGZ
11
PF7
PRD12DGZ
12
CORE_GND
PVSS3DGZ
13
PF2
PRD12DGZ
14
PF3
PRD12DGZ
15
PF4
PRD12DGZ
16
PF5
PRD12DGZ
17
IO_VDD
PVDD2DGZ
18
PF1
PRD12DGZ
19
PF0
PRD12DGZ
20
GND
PVSS2DGZ
21
PF9
PRD12DGZ
22
SCAN
PDDDGZ
23
PF10
PRD12DGZ
24
IO_GND
PVSS3DGZ
25
IO_VDD
PVDD2DGZ
26
TI0_PB0
PVDD2DGZ
27
TI1_PB1
PVDD2DGZ
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IBIS Model
40
DSP56371 Technical Data
MOTOROLA
28
CORE_GND
PVSS3DGZ
29
CORE_VDD
PVDD1DGZ
30
TDO
PRT24DGZ
31
TDI
PDUDGZ
32
TCK
PDUDGZ
33
TMS
PDUDGZ
34
MOSI_HA0
PRD12DGZ
35
MISO_SDA
PRD12DGZ
36
SCK_SCL
PRD16DGZ
37
SS_HA2
PDUSDGZ
38
HREQ
PRD12DGZ
39
PLLA_VDD
PVDD1P
40
PLLA_GND
PVSS1P
41
PLLP_VDD
PVDD2DGZ
42
PLLP_GND
PVSS2P
43
PLLD_GND
PVSS1P
44a
PLLD_VDD
PVDD1PC
44b
PLLD_VDD
PVDD1DGZ
45
EXTAL
PDIDGZ
46
PINIT_NMI
PDUSDGZ
47
RESET_B
PDUSDGZ
48
MODD_IRQD
PDUSDGZ
49
MODC_IRQC
PDUSDGZ
50
MODB_IRQB
PDUSDGZ
51
MODA_IRQA
PDUSDGZ
52
CORE_VDD
PVDD1DGZ
53
CORE_GND
PVSS3DGZ
54
SDO0_PE11
PRD12DGZ
55
SDO1_PE10
PRD12DGZ
56
SDO2_SDI3_PE9
PRD12DGZ
57
SDO3_SDI2_PE8
PRD12DGZ
58
SDO4_SDI1_PE7
PRD12DGZ
59
SDO5_SDI0_PE6
PRD12DGZ
60
FST_PE4
PRD12DGZ
61
FSR_PE1
PRD12DGZ
62
SCKT_PE4
PRD12DGZ
63
SCKR_PE0
PRD12DGZ
64
IO_VDD
PVDD2DGZ
65
IO_GND
PVSS3DGZ
66
HCKT_PE5
PRD12DGZ
67
HCKR_PE2
PRD12DGZ
68
CORE_GND
PVSS3DGZ
69
ADO_PD1
PRD24DGZ
70
ADI_PD2
PRD24DGZ
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IBIS Model
MOTOROLA
DSP56371 Technical Data
41
71
CORE_VDD
PVDD1DGZ
72
HCKR_PC2
PRD12DGZ
73
HCKT_PC5
PRD12DGZ
74
IO_GND
PVSS3DGZ
75
IO_VDD
PVDD2DGZ
76
SCKR_PC0
PRD12DGZ
77
SCKT_PC4
PRD12DGZ
78
FSR_PC1
PRD12DGZ
79
FST_PC4
PRD12DGZ
80
SDO5_SDI0_PC6
PRD12DGZ
|************************************************************************
| Model prd12dgz
|************************************************************************
|
[Model]
prd12dgz
Model_type
I/O
Polarity
Non-Inverting
Enable
Active-Low
Vinl = 0.80V
Vinh = 2.00V
Vmeas = 1.50V
Cref = 50.00pF
Rref = 1.00M
Vref = 0.000V
C_comp
4.17pF
3.75pF
4.58pF
|
|
[Temperature Range]
25.00
0.12k
0.000
[Pullup Reference]
3.30V
3.00V
3.60V
[Pulldown Reference]
0.000V
0.000V
0.000V
[POWER Clamp Reference] 5.00V
4.50V
5.50V
[GND Clamp Reference]
0.000V
0.000V
0.000V
[Pulldown]
| voltage
I(typ)
I(min)
I(max)
|
-3.30
0.000A
0.000A
0.000A
-3.10 0.000A
0.000A
-10.00mA
-2.90
0.000A
0.000A
0.000A
-2.70
0.000A
0.000A
0.000A
-2.50
0.000A
-10.00mA
0.000A
-2.30
-10.00mA
0.000A
-10.00mA
-2.10
0.000A
-10.00mA
0.000A
-1.90
0.000A
0.000A
-10.00mA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
42
DSP56371 Technical Data
MOTOROLA
-1.70
0.000A
0.000A
-10.00mA
-1.50
-10.00mA
0.000A
-10.00mA
-1.00 -11.00mA
-5.00mA
-13.00mA
-0.90
-12.00mA
-5.00mA
-15.00mA
-0.80
-24.00mA
-7.00mA
-32.51mA
-0.70
-29.14mA
-8.00mA
-32.35mA
-0.60
-26.47mA
-13.80mA
-29.35mA
-0.50
-22.61mA
-14.54mA
-25.54mA
-0.40
-18.32mA
-12.17mA
-20.93mA
-0.30
-13.87mA
-9.16mA
-15.91mA
-0.20
-9.33mA
-6.10mA
-10.74mA
-0.10
-4.70mA
-3.05mA
-5.43mA
-0.00
2.86nA
7.25nA
11.72nA
0.10
4.61mA
2.94mA
5.36mA
0.20
8.96mA
5.69mA
10.49mA
0.30
13.07mA
8.26mA
15.36mA
0.40
16.92mA
10.65mA
20.00mA
0.50
20.53mA
12.86mA
24.40mA
0.60
23.91mA
14.90mA
28.55mA
0.70
27.04mA
16.76mA
32.48mA
0.80
29.95mA
18.46mA
36.18mA
0.90
32.61mA
19.99mA
39.64mA
1.00
35.06mA
21.37mA
42.87mA
1.10
37.27mA
22.58mA
45.87mA
1.20
39.27mA
23.64mA
48.64mA
1.30
41.04mA
24.55mA
51.19mA
1.40
42.60mA
25.32mA
53.50mA
1.50
43.95mA
25.95mA
55.60mA
1.60
45.08mA
26.44mA
57.46mA
1.70
46.00mA
26.80mA
59.11mA
1.80
46.70mA
27.07mA
60.53mA
1.90
47.20mA
27.26mA
61.71mA
2.00
47.55mA
27.41mA
62.63mA
2.10
47.81mA
27.53mA
63.31mA
2.20
48.01mA
27.63mA
63.79mA
2.30
48.17mA
27.71mA
64.15mA
2.40
48.31mA
27.78mA
64.43mA
2.50
48.42mA
27.85mA
64.65mA
2.60
48.53mA
27.90mA
64.84mA
2.70
48.62mA
27.96mA
65.00mA
2.80
48.70mA
28.01mA
65.14mA
2.90
48.78mA
28.05mA
65.27mA
3.00
48.85mA
28.09mA
65.38mA
3.10
48.92mA
28.14mA
65.49mA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
43
3.20
48.99mA
28.18mA
65.59mA
3.30
49.05mA
28.23mA
65.68mA
3.40
49.12mA
28.42mA
65.77mA
3.50
49.20mA
28.97mA
65.86mA
3.60
49.24mA
29.74mA
65.95mA
3.70
49.31mA
30.57mA
66.04mA
3.80
49.40mA
31.13mA
66.12mA
3.90
49.61mA
28.60mA
66.22mA
4.00
50.41mA
28.66mA
66.33mA
4.10
51.65mA
28.72mA
66.49mA
4.20
52.87mA
28.80mA
66.72mA
4.30
50.78mA
28.89mA
67.28mA
4.50
50.67mA
29.12mA
70.40mA
4.70
51.17mA
29.42mA
73.03mA
4.90
51.85mA
29.83mA
69.12mA
5.10
52.75mA
30.37mA
70.18mA
5.30
53.86mA
31.02mA
71.45mA
5.50
55.21mA
31.82mA
73.05mA
5.70
56.82mA
32.77mA
74.98mA
5.90
58.68mA
33.86mA
77.25mA
6.10
60.78mA
35.10mA
79.83mA
6.60
66.91mA
38.73mA
87.50mA
|
[Pullup]
| voltage
I(typ)
I(min)
I(max)
|
-3.30 0.11A
82.01mA
0.13A
-3.10 0.11A
79.25mA
0.13A
-2.90
0.10A
76.07mA
0.12A
-2.70 97.60mA
72.55mA
0.11A
-2.50
92.41mA
68.70mA
0.11A
-2.30
87.04mA
64.55mA
0.10A
-2.10
81.44mA
60.13mA
94.69mA
-1.90
75.56mA
55.45mA
87.72mA
-1.70
69.36mA
50.52mA
80.48mA
-1.50
62.83mA
45.36mA
73.03mA
-1.00
48.46mA
31.37mA
56.75mA
-0.90
43.82mA
28.63mA
50.74mA
-0.80
38.59mA
28.69mA
44.61mA
-0.70
33.28mA
24.97mA
38.60mA
-0.60
28.26mA
21.04mA
33.20mA
-0.50
23.64mA
17.11mA
27.91mA
-0.40
19.01mA
13.34mA
22.52mA
-0.30
14.32mA
9.87mA
17.03mA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
44
DSP56371 Technical Data
MOTOROLA
-0.20
9.58mA
6.53mA
11.45mA
-0.10
4.80mA
3.23mA
5.78mA
0.00
34.08uA
11.20uA
71.92uA
0.10 -4.58mA
-3.08mA
-5.50mA
0.20 -8.94mA
-5.98mA
-10.80mA
0.30
-13.04mA
-8.72mA
-15.82mA
0.40
-16.89mA
-11.27mA
-20.56mA
0.50
-20.50mA
-13.66mA
-25.04mA
0.60
-23.86mA
-15.87mA
-29.25mA
0.70
-26.98mA
-17.92mA
-33.21mA
0.80
-29.87mA
-19.80mA
-36.91mA
0.90
-32.53mA
-21.51mA -40.36mA
1.00
-34.96mA
-23.06mA -43.56mA
1.10
-37.16mA
-24.45mA
-46.52mA
1.20
-39.15mA
-25.68mA
-49.24mA
1.30
-40.92mA
-26.75mA
-51.73mA
1.40
-42.48mA
-27.66mA -53.98mA
1.50
-43.83mA
-28.43mA
-56.01mA
1.60
-44.98mA
-29.05mA
-57.81mA
1.70
-45.94mA
-29.53mA
-59.40mA
1.80
-46.72mA
-29.90mA -60.77mA
1.90
-47.35mA
-30.20mA
-61.93mA
2.00
-47.86mA
-30.45mA
-62.90mA
2.10
-48.29mA
-30.66mA
-63.70mA
2.20
-48.65mA
-30.85mA
-64.37mA
2.30
-48.97mA
-31.02mA
-64.93mA
2.40
-49.25mA
-31.17mA
-65.40mA
2.50
-49.50mA
-31.31mA
-65.82mA
2.60
-49.72mA
-31.44mA
-66.18mA
2.70
-49.92mA
-31.56mA
-66.50mA
2.80
-50.11mA
-31.67mA
-66.79mA
2.90
-50.28mA
-31.78mA
-67.05mA
3.00
-50.44mA
-31.88mA
-67.29mA
3.10
-50.59mA
-31.98mA
-67.51mA
3.20
-50.74mA
-32.08mA
-67.72mA
3.30
-50.88mA
-32.20mA
-67.92mA
3.40
-51.01mA
-32.75mA
-68.11mA
3.50
-51.14mA
-40.35mA
-68.29mA
3.60
-51.27mA
-0.14A
-68.47mA
3.70
-51.42mA
-0.94A
-68.64mA
3.80
-51.84mA
-2.69A
-68.80mA
3.90
-53.78mA -4.48A
-68.97mA
4.00
-64.80mA
-6.27A
-69.30mA
4.10
-0.29A
-8.06A
-70.82mA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
45
4.20
-1.85A
-9.85A
-75.29mA
4.30
-3.90A -11.63A
-83.12mA
4.50
-8.00A -15.21A
-1.14A
4.70
-12.10A
-18.79A
-5.39A
4.90
-16.20A
-22.36A
-9.64A
5.10
-20.30A
-25.94A
-13.89A
5.30
-24.40A
-29.51A
-18.15A
5.50
-28.50A
-33.09A
-22.41A
5.70
-32.60A
-36.67A
-26.66A
5.90
-36.70A
-40.24A
-30.92A
6.10
-40.80A
-43.82A
-35.17A
6.60
-51.05A
-52.76A
-45.81A
|
[GND_clamp]
| voltage
I(typ)
I(min)
I(max)
|
-5.00
-85.83A
-77.78A
-88.32A
-4.80
-81.73A
-74.20A
-84.06A
-4.60
-77.63A
-70.62A -79.80A
-4.40
-73.53A
-67.04A
-75.54A
-4.20
-69.43A
-63.46A
-71.28A
-4.00
-65.33A
-59.88A
-67.02A
-3.80
-61.23A
-56.30A
-62.76A
-3.60
-57.13A
-52.72A
-58.50A
-3.40
-53.03A
-49.14A
-54.24A
-3.20
-48.93A
-45.56A
-49.98A
-3.00
-44.84A
-41.99A
-45.73A
-2.80
-40.74A
-38.42A
-41.48A
-2.60
-36.64A
-34.84A
-37.22A
-2.40
-32.54A
-31.27A
-32.97A
-2.20
-28.45A
-27.69A
-28.72A
-2.00
-24.35A
-24.12A
-24.46A
-1.80
-20.25A
-20.54A
-20.21A
-1.60
-16.15A
-16.97A
-15.95A
-1.40
-12.05A
-13.39A
-11.70A
-1.20
-7.95A
-9.82A
-7.44A
-1.00
-3.85A
-6.24A
-3.19A
-0.80
-0.23A
-2.66A
-70.99mA
-0.60
-2.25mA
-0.10A
-5.98mA
-0.40
-89.81uA
-0.52mA
-0.26mA
-0.20
-27.92uA
-14.70uA
-42.92uA
-0.00 -87.63nA
-89.05nA
-0.10uA
0.20
18.71uA
7.31uA
32.27uA
0.40
29.19uA
10.25uA
54.12uA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
46
DSP56371 Technical Data
MOTOROLA
0.60
32.49uA
10.67uA
65.78uA
0.80
33.07uA
10.78uA
69.33uA
1.00
33.30uA
10.86uA
70.17uA
1.20
33.45uA
10.92uA
70.55uA
1.40
33.57uA
10.97uA
70.80uA
1.60
33.68uA
11.02uA
70.99uA
1.80
33.77uA
11.07uA
71.16uA
2.00
33.87uA
11.11uA
71.32uA
2.20
33.96uA
11.14uA
71.46uA
2.40
34.01uA
11.15uA
71.61uA
2.60
34.03uA
11.16uA
71.76uA
2.80
34.05uA 11.17uA
71.84uA
3.00
34.06uA
11.19uA
71.86uA
3.20
34.07uA
11.51uA
71.88uA
3.40
34.07uA
10.95uA
71.90uA
3.60
34.07uA
10.39uA
71.92uA
3.80
34.07uA
9.83uA
71.94uA
4.00
34.07uA
9.27uA
71.96uA
4.20
34.07uA
8.71uA
71.98uA
4.40
34.07uA
8.15uA
72.00uA
4.60
34.07uA
7.59uA
72.02uA
4.80
34.07uA
7.03uA
72.04uA
5.00
34.07uA
6.47uA
72.06uA
|
[POWER_clamp]
| voltage
I(typ)
I(min)
I(max)
|
-5.00
48.57uA
16.33uA
95.57uA
-4.90
48.24uA
16.21uA
95.07uA
-4.80
47.91uA
16.09uA
94.57uA
-4.70 47.58uA
15.97uA
94.07uA
-4.60
47.25uA
15.85uA
93.57uA
-4.50
46.92uA
15.73uA 93.07uA
-4.40
46.59uA
15.61uA 92.57uA
-4.30
46.26uA
15.49uA
92.07uA
-4.20
45.93uA
15.37uA
91.57uA
-4.10
45.60uA 15.25uA
91.07uA
-4.00
45.27uA
15.13uA
90.57uA
-3.90
44.94uA
15.01uA
90.07uA
-3.80
4.61uA
14.89uA
89.57uA
-3.70
44.28uA
14.77uA
89.07uA
-3.60
43.95uA
14.65uA
88.57uA
-3.50
43.62uA
14.53uA
88.07uA
-3.40 43.29uA
14.41uA
87.57uA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
47
-3.30
42.96uA
14.29uA
87.07uA
-3.20
42.63uA
14.17uA
86.57uA
-3.10
42.30uA
14.05uA
86.07uA
-3.00
41.97uA
13.93uA
85.57uA
-2.90
41.64uA
13.81uA
85.07uA
-2.80
41.31uA
13.69uA
84.57uA
-2.70
40.98uA
13.57uA
84.07uA
-2.60
40.65uA
13.45uA
83.57uA
-2.50
40.32uA
13.33uA
83.07uA
-2.40
39.99uA
13.21uA
82.57uA
-2.30
39.66uA
13.09uA
82.07uA
-2.20
39.33uA
12.97uA
81.57uA
-2.10
39.00uA
12.85uA
81.07uA
-2.00
38.67uA
12.73uA
80.57uA
-1.90
38.34uA
12.61uA
80.07uA
-1.80 38.01uA
12.49uA
79.57uA
-1.70 37.68uA
12.37uA
79.07uA
-1.60
37.35uA
12.25uA
78.57uA
-1.50
37.02uA
12.15uA
78.07uA
-1.40
36.71uA
12.05uA
77.57uA
-1.30
36.42uA
11.95uA
77.07uA
-1.20
36.15uA
11.87uA
76.57uA
-1.10
35.89uA
11.79uA
76.07uA
-1.00
35.66uA
11.72uA
75.57uA
-0.90
35.45uA
11.66uA 75.10uA
-0.80
35.26uA
11.60uA
74.67uA
-0.70
35.09uA
11.55uA
74.28uA
-0.60
34.93uA
11.51uA
73.93uA
-0.50
34.80uA 11.47uA
73.61uA
0.40
34.68uA
11.43uA
73.34uA
-0.30
34.59uA
11.41uA
73.10uA
-0.20
34.50uA
11.38uA
72.89uA
-0.10
34.43uA
11.36uA
72.72uA
0.00
34.37uA
11.34uA 72.57uA
|
[Ramp]
| variable
typ
min
max
dV/dt_r
1.21/2.06n
0.85/2.62n
1.45/1.82n
dV/dt_f 1.22/2.51n
0.78/3.11n
1.45/2.14n
R_load = 50.00
|
[Rising Waveform]
R_fixture = 50.00
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IBIS Model
48
DSP56371 Technical Data
MOTOROLA
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ)
V(min)
V(max)
|
0.000S
1.26uV
1.62uV
1.22uV
0.20nS
1.04uV
1.45uV
0.74uV
0.40nS
-5.64uV
-1.36uV
11.59uV
0.60nS
-0.29mV
-5.13uV
-3.27mV
0.80nS
-3.54mV
25.94uV
-9.17mV
1.00nS
-3.50mV
-4.79uV
56.24mV
1.20nS
33.86mV
-0.86mV
0.13V
1.40nS
79.34mV
-3.75mV
0.19V
1.60nS
0.14V
-8.09mV
0.27V
1.80nS
0.20V
3.52mV
0.36V
2.00nS
0.28V
38.97mV
0.47V
2.20nS
0.36V
82.84mV
0.59V
2.40nS
0.47V
0.13V
0.74V
2.60nS
0.60V
0.18V
0.90V
2.80nS
0.77V
0.27V
1.12V
3.00nS
0.92V
0.34V
1.32V
3.20nS
1.03V
0.40V
1.46V
3.40nS
1.16V
0.50V
1.63V
3.60nS
1.29V
0.59V 1.78V
3.80nS
1.39V
0.67V
1.91V
4.00nS
1.49V
0.75V
2.01V
4.20nS
1.58V
0.84V
2.11V
4.40nS
1.65V
0.91V
2.18V
4.60nS
1.69V
0.95V 2.21V
4.80nS
1.72V
0.99V
2.23V
5.00nS
1.76V
1.03V
2.27V
5.20nS
1.80V
1.07V
2.29V
5.40nS
1.83V
1.12V 2.31V
5.60nS
1.86V
1.16V
2.33V
5.80nS
1.88V
1.18V
2.34V
6.00nS
1.89V
1.20V
2.34V
6.20nS
1.91V
1.23V
2.35V
6.40nS
1.92V
1.25V
2.36V
6.60nS
1.93V
1.27V
2.37V
6.80nS
1.94V
1.28V
2.38V
7.00nS
1.95V
1.30V
2.38V
7.20nS
1.96V
1.31V
2.39V
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IBIS Model
MOTOROLA
DSP56371 Technical Data
49
7.40nS
1.97V
1.33V
2.39V
7.60nS
1.98V
1.34V
2.39V
7.80nS
1.98V
1.35V
2.40V
8.00nS
1.98V
1.36V
2.40V
8.20nS
1.99V
1.37V
2.40V
8.40nS
1.99V
1.37V
2.40V
8.60nS
1.99V
1.38V
2.41V
8.80nS
2.00V
1.39V
2.41V
9.00nS
2.00V
1.39V
2.41V
9.20nS
2.00V
1.40V
2.41V
9.40nS
2.01V
1.40V
2.41V
9.60nS
2.01V
1.41V
2.42V
9.80nS
2.01V
1.41V
2.42V
10.00nS 2.01V
1.41V
2.42V
|
[Rising Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ) V(min) V(max)
|
0.000S
1.27V
1.66V
1.18V
0.20nS
1.27V
1.66V
1.18V
0.40nS
1.27V 1.66V
1.18V
0.60nS
1.27V
1.66V
1.19V
0.80nS
1.28V
1.66V
1.24V
1.00nS
1.40V
1.66V
1.47V
1.20nS
1.60V
1.67V
1.71V
1.40nS
1.77V
1.69V
1.88V
1.60nS
1.99V
1.80V
2.12V
1.80nS
2.24V
1.95V
2.41V
2.00nS
2.50V
2.13V
2.70V
2.20nS
2.74V
2.32V
2.99V
2.40nS
2.94V
2.49V
3.21V
2.60nS 3.09V
2.63V
3.34V
2.80nS
3.18V
2.79V
3.44V
3.00nS
3.24V
2.87V 3.49V
3.20nS
3.26V
2.91V
3.52V
3.40nS
3.27V
2.96V 3.55V
3.60nS
3.29V
2.98V
3.57V
3.80nS
3.29V
2.99V
3.59V
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50
DSP56371 Technical Data
MOTOROLA
4.00nS
3.30V
2.99V
3.59V
4.20nS
3.30V
3.00V
3.60V
4.40nS
3.30V
3.00V
3.60V
4.60nS
3.30V
3.00V
3.60V
4.80nS
3.30V
3.00V
3.60V
5.00nS
3.30V
3.00V
3.60V
5.20nS
3.30V
3.00V
3.60V
5.40nS
3.30V
3.00V
3.60V
5.60nS
3.30V
3.00V
3.60V
5.80nS
3.30V
3.00V
3.60V
6.00nS
3.30V
3.00V
3.60V
6.20nS
3.30V
3.00V
3.60V
6.40nS 3.30V
3.00V
3.60V
6.60nS 3.30V
3.00V
3.60V
6.80nS 3.30V
3.00V
3.60V
7.00nS
3.30V
3.00V
3.60V
7.20nS
3.30V
3.00V 3.60V
7.40nS
3.30V
3.00V
3.60V
7.60nS
3.30V
3.00V
3.60V
7.80nS
3.30V
3.00V
3.60V
8.00nS
3.30V
3.00V
3.60V
8.20nS
3.30V
3.00V
3.60V
8.40nS
3.30V
3.00V
3.60V
8.60nS 3.30V
3.00V
3.60V
8.80nS 3.30V
3.00V
3.60V
9.00nS 3.30V
3.00V
3.60V
9.20nS 3.30V
3.00V
3.60V
9.40nS 3.30V
3.00V
3.60V
9.60nS 3.30V
3.00V
3.60V
9.80nS 3.30V
3.00V
3.60V
10.00nS
3.30V
3.00V 3.60V
|
[Falling Waveform]
R_fixture = 50.00
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
|time
V(typ)
V(min)
V(max)
|
0.000S
2.02V
1.44V 2.43V
0.20nS
2.02V
1.44V
2.43V
0.40nS
2.02V
1.44V
2.43V
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MOTOROLA
DSP56371 Technical Data
51
0.60nS
2.02V
1.44V
2.38V
0.80nS
1.97V
1.44V
2.13V
1.00nS
1.73V
1.44V
1.82V
1.20nS
1.45V
1.42V
1.49V
1.40nS
1.24V
1.38V
1.24V
1.60nS
0.96V
1.29V
0.92V
1.80nS
0.70V
1.12V
0.67V
2.00nS
0.50V
0.92V
0.50V
2.20nS
0.36V
0.73V
0.38V
2.40nS
0.27V
0.55V
0.30V
2.60nS
0.20V
0.40V
0.24V
2.80nS
0.14V
0.27V
0.17V
3.00nS
99.16mV
0.20V
0.13V
3.20nS
79.41mV
0.16V
0.11V
3.40nS
53.08mV
0.11V
78.74mV
3.60nS
36.21mV
75.26mV
59.16mV
3.80nS
23.36mV
51.00mV
39.59mV
4.00nS
12.42mV
31.87mV
27.31mV
4.20nS
6.73mV
18.57mV
15.01mV
4.40nS
2.10mV
8.15mV
7.54mV
4.60nS
1.57mV
5.93mV
4.99mV
4.80nS
1.14mV
3.71mV
2.45mV
5.00nS
0.68mV
1.71mV
1.29mV
5.20nS
0.62mV
1.31mV
0.88mV
5.40nS
0.54mV
0.89mV
0.54mV
5.60nS
0.46mV
0.73mV
0.46mV
5.80nS
0.41mV
0.65mV
0.42mV
6.00nS
0.37mV
0.59mV
0.38mV
6.20nS
0.34mV
0.53mV
0.34mV
6.40nS
0.32mV
0.48mV
0.29mV
6.60nS
0.27mV
0.43mV
0.26mV
6.80nS 0.22mV
0.38mV
0.22mV
7.00nS
0.18mV
0.34mV
0.20mV
7.20nS
0.18mV
0.30mV
0.18mV
7.40nS
0.18mV
0.26mV
0.15mV
7.60nS
0.15mV
0.23mV
0.13mV
7.80nS
0.12mV
0.22mV
0.12mV
8.00nS
0.11mV
0.20mV
0.11mV
8.20nS
0.11mV
0.18mV
0.10mV
8.40nS
0.12mV
0.17mV
92.36uV
8.60nS
97.87uV
0.16mV
78.53uV
8.80nS
59.73uV
0.15mV
64.71uV
9.00nS
36.18uV
0.14mV
61.02uV
9.20nS
61.23uV
0.12mV
60.74uV
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IBIS Model
52
DSP56371 Technical Data
MOTOROLA
9.40nS
87.87uV
0.10mV
58.12uV
9.60nS
67.13uV
0.10mV
46.02uV
9.80nS
29.42uV
0.10mV
39.81uV
10.00nS
71.42uV
84.83uV
50.29uV
|
[Falling Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
L_fixture = 0.000H
C_fixture = 0.000F
| time
V(typ)
V(min)
V(max)
|
0.000S 3.30V
3.00V
3.60V
0.20nS
3.30V
3.00V
3.60V
0.40nS
3.30V
3.00V
3.60V
0.60nS
3.30V
3.00V
3.59V
0.80nS 3.30V
3.00V
3.48V
1.00nS 3.22V
3.00V
3.36V
1.20nS 3.12V
3.00V
3.25V
1.40nS
3.06V
3.00V
3.16V
1.60nS 2.96V
3.00V
3.04V
1.80nS 2.86V
2.95V
2.90V
2.00nS 2.75V
2.89V
2.76V
2.20nS 2.64V
2.83V
2.61V
2.40nS 2.52V
2.77V
2.48V
2.60nS 2.40V
2.70V
2.34V
2.80nS 2.26V
2.61V
2.18V
3.00nS 2.16V
2.54V
2.04V
3.20nS 2.10V
2.48V
1.93V
3.40nS 2.01V
2.41V
1.79V
3.60nS 1.93V
2.35V
1.68V
3.80nS 1.86V
2.30V
1.57V
4.00nS 1.78V
2.25V
1.49V
4.20nS 1.68V
2.19V
1.41V
4.40nS 1.58V
2.13V
1.34V
4.60nS 1.53V
2.10V
1.31V
4.80nS 1.49V
2.08V
1.29V
5.00nS 1.43V
2.04V
1.26V
5.20nS 1.39V
2.01V
1.24V
5.40nS 1.35V
1.98V
1.22V
5.60nS 1.32V
1.95V
1.21V
5.80nS 1.31V
1.94V
1.20V
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IBIS Model
MOTOROLA
DSP56371 Technical Data
53
6.00nS 1.30V
1.93V
1.20V
6.20nS
1.29V
1.91V
1.19V
6.40nS
1.29V
1.90V
1.19V
6.60nS 1.29V
1.88V
1.19V
6.80nS 1.28V
1.87V
1.19V
7.00nS 1.28V
1.85V
1.19V
7.20nS 1.28V
1.84V
1.19V
7.40nS 1.28V
1.83V
1.19V
7.60nS 1.28V
1.82V
1.19V
7.80nS 1.28V
1.81V
1.19V
8.00nS 1.28V
1.81V
1.19V
8.20nS 1.28V
1.80V
1.19V
8.40nS 1.27V
1.79V
1.19V
8.60nS 1.27V
1.79V
1.19V
8.80nS 1.27V
1.78V
1.19V
9.00nS 1.27V
1.77V
1.19V
9.20nS 1.27V
1.76V
1.19V
9.40nS 1.27V
1.75V
1.19V
9.60nS 1.27V
1.73V
1.18V
9.80nS
1.27V 1.72V
1.18V
10.00nS
1.27V 1.71V
1.18V
|
| End [Model] prd12dgz
|
|************************************************************************
| Model prd16dgz
|************************************************************************
|
[Model] prd16dgz
Model_type I/O
Polarity Non-Inverting
Enable Active-Low
Vinl = 0.80V
Vinh = 2.00V
Vmeas = 1.50V
Cref = 50.00pF
Rref = 1.00M
Vref = 0.000V
C_comp
3.86pF
3.48pF 4.25pF
|
|
[Temperature Range]
25.00
0.12k 0.000
[Pullup Reference]
3.30V
3.00V 3.60V
[Pulldown Reference]
0.000V 0.000V 0.000V
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IBIS Model
54
DSP56371 Technical Data
MOTOROLA
[POWER Clamp Reference] 5.00V
4.50V
5.50V
[GND Clamp Reference]
0.000V
0.000V
0.000V
[Pulldown]
| voltage I(typ)
I(min)
I(max)
|
-3.30 -10.00mA
0.000A 0.000A
-3.10 0.000A 0.000A 0.000A
-2.90 0.000A 0.000A 0.000A
-2.70 0.000A 0.000A 0.000A
-2.50 0.000A 0.000A 0.000A
-2.30 0.000A 0.000A 0.000A
-2.10 -10.00mA
0.000A 0.000A
-1.90 0.000A 0.000A -10.00mA
-1.70 -10.00mA
0.000A -10.00mA
-1.50 -10.00mA
0.000A -20.00mA
-1.00 -16.00mA
-6.00mA
-18.00mA
-0.90 -16.00mA
-8.00mA
-21.00mA
-0.80 -32.00mA
-8.00mA
-43.34mA
-0.70
-38.86mA -10.60mA -43.13mA
-0.60
-35.29mA -18.40mA -39.13mA
-0.50
-30.14mA -19.39mA -34.05mA
-0.40
-24.42mA -16.22mA -27.89mA
-0.30
-18.49mA -12.22mA -21.21mA
-0.20 -12.44mA
-8.14mA
-14.32mA
-0.10 -6.27mA -4.06mA -7.24mA
-0.00 4.09nA 6.98nA 10.67nA
0.10 6.14mA 3.92mA 7.15mA
0.20 11.95mA
7.59mA
13.98mA
0.30
17.42mA 11.01mA 20.48mA
0.40
22.56mA 14.20mA 26.67mA
0.50
27.38mA 17.14mA 32.53mA
0.60
31.88mA 19.86mA 38.07mA
0.70
36.06mA 22.35mA 43.31mA
0.80
39.93mA 24.61mA 48.24mA
0.90
43.49mA 26.66mA 52.85mA
1.00
46.74mA 28.49mA 57.16mA
1.10
49.69mA 30.11mA 61.16mA
1.20
52.35mA 31.52mA 64.86mA
1.30
54.72mA 32.74mA 68.25mA
1.40
56.80mA 33.76mA 71.34mA
1.50
58.59mA 34.59mA 74.13mA
1.60
60.11mA 35.25mA 76.62mA
1.70
61.33mA 35.74mA 78.81mA
1.80
62.26mA 36.09mA 80.70mA
F
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IBIS Model
MOTOROLA
DSP56371 Technical Data
55
1.90
62.93mA 36.35mA 82.27mA
2.00
63.40mA 36.55mA 83.51mA
2.10
63.75mA 36.71mA 84.41mA
2.20
64.01mA 36.84mA 85.06mA
2.30
64.23mA 36.95mA 85.54mA
2.40
64.41mA 37.04mA 85.91mA
2.50
64.56mA 37.13mA 86.20mA
2.60
64.70mA 37.21mA 86.45mA
2.70
64.82mA 37.28mA 86.66mA
2.80
64.94mA 37.34mA 86.85mA
2.90
65.04mA 37.40mA 87.02mA
3.00
65.14mA 37.46mA 87.17mA
3.10
65.23mA 37.51mA 87.32mA
3.20
65.32mA 37.57mA 87.45mA
3.30
65.40mA 37.63mA 87.58mA
3.40
65.49mA 37.81mA 87.70mA
3.50
65.59mA 38.34mA 87.82mA
3.60
65.66mA 39.10mA 87.93mA
3.70
65.75mA 39.94mA 88.05mA
3.80
65.86mA 40.42mA 88.16mA
3.90
66.08mA 38.09mA 88.29mA
4.00
66.86mA 38.16mA 88.44mA
4.10
68.11mA 38.25mA 88.63mA
4.20
69.36mA 38.35mA 88.90mA
4.30
67.34mA 38.47mA 89.46mA
4.50
67.43mA 38.78mA 92.67mA
4.70
68.10mA 39.19mA 95.47mA
4.90
69.00mA 39.73mA 91.91mA
5.10
70.20mA 40.44mA 93.29mA
5.30
71.67mA 41.32mA 95.00mA
5.50
73.47mA 42.38mA 97.12mA
5.70
75.61mA 43.64mA 99.69mA
5.90
78.09mA 45.10mA 0.10A
6.10
80.89mA 46.75mA 0.11A
6.60
89.06mA 51.59mA 0.12A
|
[Pullup]
| voltage I(typ)
I(min)
I(max)
|
-3.30 0.16A 0.12A 0.19A
-3.10
0.16A 0.12A 0.18A
-2.90 0.15A 0.11A 0.17A
-2.70 0.14A 0.11A 0.16A
-2.50 0.14A 0.10A 0.16A
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Freescale Semiconductor, Inc.
For More Information On This Product,
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56
DSP56371 Technical Data
MOTOROLA
-2.30 0.13A 96.26mA
0.15A
-2.10 0.12A 89.72mA
0.14A
-1.90 0.11A 82.79mA
0.13A
-1.70 0.10A 75.47mA
0.12A
-1.50 93.76mA 67.80mA 0.11A
-1.00 70.54mA 46.98mA 82.43mA
-0.90 63.97mA 42.83mA 74.23mA
-0.80 56.74mA 41.47mA 65.83mA
-0.70 49.39mA 36.27mA 57.50mA
-0.60 42.27mA 30.78mA 49.67mA
-0.50 35.43mA 25.27mA 41.79mA
-0.40 28.50mA 19.90mA 33.74mA
-0.30 21.47mA 14.79mA 25.52mA
-0.20 14.35mA
9.79mA 17.14mA
-0.10 7.19mA 4.85mA 8.64mA
0.00 34.08uA 11.19uA 71.92uA
0.10 -6.89mA -4.62mA -8.29mA
0.20 -13.43mA
-8.98mA
-16.24mA
0.30
-19.58mA -13.08mA -23.77mA
0.40
-25.36mA -16.92mA -30.88mA
0.50
-30.77mA -20.50mA -37.60mA
0.60
-35.81mA -23.82mA -43.93mA
0.70
-40.49mA -26.89mA -49.86mA
0.80
-44.83mA -29.70mA -55.41mA
0.90
-48.81mA -32.27mA -60.59mA
1.00
-52.46mA -34.60mA -65.39mA
1.10
-55.77mA -36.68mA -69.83mA
1.20 -58.75mA
-38.52mA
-73.91mA
1.30
-61.41mA -40.13mA -77.64mA
1.40
-63.75mA -41.50mA -81.02mA
1.50
-65.77mA -42.65mA -84.06mA
1.60
-67.50mA -43.58mA -86.77mA
1.70
-68.93mA -44.31mA -89.14mA
1.80
-70.10mA -44.87mA -91.20mA
1.90
-71.04mA -45.31mA -92.94mA
2.00 -71.82mA
-45.68mA
-94.40mA
2.10
-72.46mA -46.00mA -95.60mA
2.20
-73.01mA -46.28mA -96.60mA
2.30
-73.48mA -46.53mA -97.44mA
2.40
-73.90mA -46.76mA -98.15mA
2.50
-74.27mA -46.97mA -98.77mA
2.60
-74.60mA -47.17mA -99.31mA
2.70
-74.91mA -47.35mA -99.80mA
2.80
-75.18mA -47.52mA -0.10A
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
57
2.90
-75.44mA -47.68mA -0.10A
3.00
-75.68mA -47.83mA -0.10A
3.10
-75.90mA -47.97mA -0.10A
3.20
-76.12mA -48.11mA -0.10A
3.30
-76.32mA -48.27mA -0.10A
3.40
-76.52mA -48.87mA -0.10A
3.50
-76.71mA -56.48mA -0.10A
3.60 -76.89mA
-0.15A -0.10A
3.70 -77.09mA
-0.95A -0.10A
3.80 -77.56mA
-2.71A -0.10A
3.90 -79.54mA
-4.50A -0.10A
4.00 -90.56mA
-6.29A -0.10A
4.10 -0.31A -8.09A -0.11A
4.20 -1.88A -9.88A -0.11A
4.30 -3.93A -11.66A
-0.12A
4.50 -8.04A -15.24A
-1.17A
4.70 -12.14A -18.83A -5.43A
4.90 -16.25A -22.41A -9.69A
5.10
-20.36A -25.99A -13.95A
5.30 -24.46A -29.57A -18.21A
5.50 -28.57A -33.15A -22.48A
5.70 -32.68A -36.73A -26.74A
5.90 -36.78A -40.31A -31.00A
6.10 -40.89A -43.89A -35.27A
6.60 -51.16A -52.84A -45.93A
|
[GND_clamp]
| voltage I(typ)
I(min)
I(max)
|
-5.00 -85.90A -77.84A -88.40A
-4.80 -81.80A -74.26A -84.14A
-4.60 -77.70A -70.68A -79.88A
-4.40 -73.60A -67.10A -75.62A
-4.20 -69.50A -63.52A -71.36A
-4.00 -65.40A -59.94A -67.10A
-3.80 -61.30A -56.36A -62.84A
-3.60 -57.20A
-52.78A -58.58A
-3.40 -53.10A -49.20A -54.32A
-3.20 -49.00A -45.62A -50.06A
-3.00 -44.90A -42.04A -45.80A
-2.80 -40.80A -38.46A -41.54A
-2.60 -36.69A -34.89A -37.28A
-2.40 -32.59A -31.31A -33.02A
-2.20 -28.49A -27.73A -28.76A
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
58
DSP56371 Technical Data
MOTOROLA
-2.00 -24.38A
-24.15A -24.50A
-1.80 -20.28A -20.57A -20.24A
-1.60 -16.17A -16.99A -15.97A
-1.40 -12.06A -13.40A -11.71A
-1.20 -7.96A -9.83A -7.45A
-1.00 -3.86A -6.25A -3.19A
-0.80 -0.23A -2.66A -70.76mA
-0.60 -2.22mA
-0.10A -5.90mA
-0.40 -89.20uA
-0.52mA
-0.26mA
0.20
-27.89uA -14.67uA -42.88uA
-0.00 -62.88nA -63.80nA -74.38nA
0.20 18.73uA
7.33uA 32.30uA
0.40 29.21uA 10.27uA 54.14uA
0.60 32.51uA 10.69uA 65.81uA
0.80 33.09uA 10.80uA 69.35uA
1.00 33.31uA 10.87uA 70.19uA
1.20 33.46uA 10.93uA 70.56uA
1.40 33.58uA 10.98uA 70.81uA
1.60 33.69uA 11.03uA 71.00uA
1.80 33.78uA 11.08uA 71.17uA
2.00 33.87uA 11.12uA 71.33uA
2.20
33.96uA 11.14uA 71.47uA
2.40 34.01uA 11.15uA 71.62uA
2.60 34.03uA 11.16uA 71.76uA
2.80 34.04uA 11.17uA 71.84uA
3.00 34.05uA 11.18uA 71.86uA
3.20 34.06uA 11.57uA 71.88uA
3.40 34.08uA 10.87uA 71.90uA
3.60 34.10uA 10.17uA 71.92uA
3.80
34.12uA
9.47uA 71.94uA
4.00 34.14uA
8.77uA 71.96uA
4.20 34.16uA
8.07uA 71.98uA
4.40 34.18uA
7.37uA 72.00uA
4.60 34.20uA
6.67uA 72.02uA
4.80 34.22uA
5.97uA 72.04uA
5.00 34.24uA
5.27uA 72.06uA
|
[POWER_clamp]
| voltage I(typ)
I(min)
I(max)
|
-5.00 48.54uA 16.29uA 95.93uA
-4.90 48.21uA 16.17uA 95.42uA
-4.80
47.88uA 16.05uA 94.91uA
-4.70 47.55uA 15.93uA 94.40uA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
59
-4.60 47.22uA 15.81uA 93.89uA
-4.50 46.89uA 15.69uA 93.38uA
-4.40 46.56uA 15.57uA 92.87uA
-4.30 46.23uA 15.45uA 92.36uA
-4.20
45.90uA 15.33uA 91.85uA
-4.10 45.57uA 15.21uA 91.34uA
-4.00 45.24uA
15.09uA
90.83uA
-3.90 44.91uA 14.97uA 90.32uA
-3.80 44.58uA 14.85uA 89.81uA
-3.70 44.25uA 14.73uA 89.30uA
-3.60 43.92uA 14.61uA 88.79uA
-3.50 43.59uA 14.49uA 88.28uA
-3.40 43.26uA 14.37uA 87.77uA
-3.30 42.93uA 14.25uA 87.26uA
-3.20 42.60uA 14.13uA 86.75uA
-3.10
42.27uA 14.01uA 86.24uA
-3.00 41.94uA 13.89uA 85.73uA
-2.90 41.61uA 13.77uA 85.22uA
-2.80 41.28uA 13.65uA 84.71uA
-2.70 40.95uA 13.53uA 84.20uA
-2.60
40.62uA 13.41uA 83.69uA
2.50 40.29uA 13.29uA 83.18uA
-2.40 39.96uA 13.17uA 82.67uA
-2.30 39.63uA 13.05uA 82.16uA
-2.20
39.30uA 12.93uA 81.65uA
-2.10
38.97uA 12.81uA 81.14uA
-2.00 38.64uA 12.69uA 80.63uA
-1.90
38.31uA 12.57uA 80.12uA
-1.80 37.98uA 12.45uA 79.61uA
-1.70 37.65uA 12.33uA 79.10uA
-1.60 37.32uA 12.22uA 78.59uA
-1.50
36.99uA 12.11uA 78.08uA
-1.40 36.68uA
12.02uA
77.57uA
-1.30 36.39uA 11.92uA 77.06uA
-1.20 36.12uA 11.84uA 76.55uA
-1.10 35.87uA 11.76uA 76.04uA
-1.00 35.63uA 11.69uA 75.53uA
-0.90 35.42uA 11.63uA 75.06uA
-0.80
35.23uA
11.58uA
74.64uA
-0.70 35.06uA 11.53uA 4.25uA
-0.60 34.91uA 11.48uA 73.90uA
-0.50 34.78uA 11.44uA 73.58uA
-0.40 34.66uA 11.41uA 73.31uA
-0.30
34.56uA
11.38uA
73.07uA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
60
DSP56371 Technical Data
MOTOROLA
-0.20 34.48uA 11.36uA 72.87uA
-0.10 34.41uA 11.34uA 72.69uA
0.00 34.35uA 11.32uA 72.55uA
|
[Ramp]
| variable
typ
min
max
dV/dt_r 1.43/2.06n 1.08/2.82n 1.66/1.86n
dV/dt_f 1.39/2.80n 0.98/4.41n 1.61/2.52n
R_load = 50.00
|
[Rising Waveform]
R_fixture = 50.00
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
| time
V(typ)
V(min)
V(max)
0.000S
0.71uV 0.94uV 0.68uV
0.20nS
0.48uV 0.81uV 0.000V
0.40nS -6.07uV -1.89uV 12.38uV
0.60nS -0.29mV -5.66uV -3.13mV
0.80nS -3.39mV 26.90uV -6.39mV
1.00nS -4.34mV -5.17uV 43.34mV
1.20nS 25.79mV -0.87mV 0.11V
1.40nS 62.40mV -3.65mV 0.15V
1.60nS 0.11V
-7.89mV 0.21V
1.80nS 0.16V
0.71mV 0.28V
2.00nS 0.22V
29.71mV 0.37V
2.20nS 0.28V
65.63mV 0.46V
2.40nS
0.37V 0.10V 0.59V
2.60nS
0.48V 0.15V 0.71V
2.80nS
0.63V 0.22V 0.92V
3.00nS
0.79V 0.28V 1.12V
3.20nS
0.90V 0.34V 1.28V
3.40nS
1.07V 0.43V 1.49V
3.60nS
1.24V 0.53V 1.70V
3.80nS
1.39V 0.63V 1.89V
4.00nS
1.55V 0.74V 2.07V
4.20nS
1.71V 0.86V 2.24V
4.40nS
1.84V 0.97V 2.37V
4.60nS
1.90V 1.03V 2.44V
4.80nS
1.96V 1.09V 2.50V
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
MOTOROLA
DSP56371 Technical Data
61
5.00nS
2.03V 1.16V 2.54V
5.20nS
2.08V 1.22V 2.59V
5.40nS
2.13V 1.29V 2.62V
5.60nS
2.18V 1.36V 2.65V
5.80nS
2.20V 1.39V 2.66V
6.00nS
2.22V 1.43V 2.67V
6.20nS
2.24V 1.47V 2.68V
6.40nS
2.26V 1.51V 2.69V
6.60nS
2.27V 1.54V 2.70V
6.80nS
2.29V 1.57V 2.71V
7.00nS
2.30V 1.60V 2.72V
7.20nS
2.31V 1.63V 2.72V
7.40nS
2.32V 1.66V 2.73V
7.60nS
2.33V 1.68V 2.74V
7.80nS
2.34V 1.69V 2.74V
8.00nS
2.34V 1.70V 2.74V
8.20nS
2.35V 1.72V 2.75V
8.40nS
2.35V 1.73V 2.75V
8.60nS
2.36V 1.74V 2.75V
8.80nS
2.36V 1.75V 2.76V
9.00nS
2.36V 1.76V 2.76V
9.20nS
2.37V 1.77V 2.76V
9.40nS
2.37V 1.78V 2.76V
9.60nS
2.38V 1.79V 2.77V
9.80nS
2.38V 1.80V 2.77V
10.00nS
2.38V 1.80V 2.77V
|
[Rising Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ) V(min) V(max)
|
0.000S
0.98V 1.34V 0.92V
0.20nS
0.98V 1.34V 0.92V
0.40nS
0.98V 1.34V 0.92V
0.60nS
0.98V 1.34V 0.92V
0.80nS
0.99V 1.34V 0.94V
1.00nS
1.05V 1.34V 1.07V
1.20nS
1.18V 1.34V 1.24V
1.40nS
1.31V 1.36V 1.37V
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Freescale Semiconductor, Inc.
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IBIS Model
62
DSP56371 Technical Data
MOTOROLA
1.60nS
1.49V 1.44V 1.55V
1.80nS
1.69V 1.57V 1.76V
2.00nS
1.92V 1.73V 2.02V
2.20nS
2.18V 1.92V 2.33V
2.40nS
2.46V 2.11V 2.62V
2.60nS
2.73V 2.32V 2.91V
2.80nS
2.97V 2.55V 3.20V
3.00nS
3.09V 2.69V 3.33V
3.20nS
3.15V 2.76V 3.39V
3.40nS
3.20V 2.86V 3.44V
3.60nS
3.24V 2.92V 3.50V
3.80nS
3.26V 2.95V 3.53V
4.00nS
3.28V 2.98V 3.55V
4.20nS
3.29V 2.99V 3.57V
4.40nS
3.29V 2.99V 3.59V
4.60nS
3.30V 3.00V 3.59V
4.80nS
3.30V 3.00V 3.59V
5.00nS
3.30V 3.00V 3.60V
5.20nS
3.30V 3.00V 3.60V
5.40nS
3.30V 3.00V 3.60V
5.60nS
3.30V 3.00V 3.60V
5.80nS
3.30V 3.00V 3.60V
6.00nS
3.30V 3.00V 3.60V
6.20nS
3.30V 3.00V 3.60V
6.40nS
3.30V 3.00V 3.60V
6.60nS
3.30V 3.00V 3.60V
6.80nS
3.30V 3.00V 3.60V
7.00nS
3.30V 3.00V 3.60V
7.20nS
3.30V 3.00V 3.60V
7.40nS
3.30V 3.00V 3.60V
7.60nS
3.30V 3.00V 3.60V
7.80nS
3.30V 3.00V 3.60V
8.00nS
3.30V 3.00V 3.60V
8.20nS
3.30V 3.00V 3.60V
8.40nS
3.30V 3.00V 3.60V
8.60nS
3.30V 3.00V 3.60V
8.80nS
3.30V 3.00V 3.60V
9.00nS
3.30V 3.00V 3.60V
9.20nS
3.30V 3.00V 3.60V
9.40nS
3.30V 3.00V 3.60V
9.60nS
3.30V 3.00V 3.60V
9.80nS 3.30V
3.00V
3.60V
10.00nS
3.30V 3.00V 3.60V
|
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Freescale Semiconductor, Inc.
For More Information On This Product,
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MOTOROLA
DSP56371 Technical Data
63
[Falling Waveform]
R_fixture = 50.00
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ) V(min) V(max)
|
0.000S
2.41V 1.87V 2.79V
0.20nS
2.41V 1.87V 2.79V
0.40nS
2.41V 1.87V 2.79V
0.60nS
2.41V 1.87V 2.76V
0.80nS
2.37V 1.87V 2.62V
1.00nS
2.24V 1.86V 2.44V
1.20nS
2.07V 1.85V 2.25V
1.40nS
1.94V 1.82V 2.10V
1.60nS
1.76V 1.75V 1.85V
1.80nS
1.54V 1.65V 1.55V
2.00nS
1.28V 1.51V 1.23V
2.20nS
1.01V 1.36V 0.96V
2.40nS
0.78V 1.18V 0.77V
2.60nS
0.61V 0.99V 0.63V
2.80nS
0.46V 0.76V 0.51V
3.00nS
0.37V 0.59V 0.43V
3.20nS
0.33V 0.49V 0.37V
3.40nS 0.26V
0.39V 0.32V
3.60nS 0.21V
0.31V 0.27V
3.80nS
0.17V 0.25V 0.22V
4.00nS
0.14V 0.19V 0.19V
4.20nS
0.10V 0.15V 0.14V
4.40nS
73.29mV 0.10V
0.11V
4.60nS 60.19mV 87.46mV 93.57mV
4.80nS 48.89mV 70.67mV 8.29mV
5.00nS 34.23mV 50.83mV 61.98mV
5.20nS 24.65mV 38.23mV 46.06mV
5.40nS 14.47mV 23.57mV 32.51mV
5.60nS 8.10mV 14.65mV 20.47mV
5.80nS
5.49mV 9.93mV 15.65mV
6.00nS 3.06mV 6.30mV 11.70mV
6.20nS 1.82mV 4.27mV 6.64mV
6.40nS 1.09mV 2.24mV 4.15mV
6.60nS 0.61mV 1.46mV 2.31mV
6.80nS 0.54mV 1.08mV 1.05mV
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
64
DSP56371 Technical Data
MOTOROLA
7.00nS 0.47mV 0.78mV 0.76mV
7.20nS 0.42mV 0.69mV 0.48mV
7.40nS 0.35mV 0.59mV 0.37mV
7.60nS 0.31mV 0.52mV 0.31mV
7.80nS 0.29mV 0.48mV 0.29mV
8.00nS 0.27mV 0.45mV 0.26mV
8.20nS 0.24mV 0.40mV 0.24mV
8.40nS 0.20mV 0.35mV 0.21mV
8.60nS 0.18mV 0.32mV 0.18mV
8.80nS 0.18mV 0.31mV 0.16mV
9.00nS 0.17mV 0.28mV 0.16mV
9.20nS 0.15mV 0.24mV 0.15mV
9.40nS 0.12mV 0.20mV 0.12mV
9.60nS 0.10mV 0.19mV 93.74uV
9.80nS 0.11mV 0.20mV 90.71uV
10.00nS
0.11mV 0.17mV 97.83uV
|
[Falling Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ) V(min) V(max)
|
0.000S
3.30V 3.00V 3.60V
0.20nS
3.30V 3.00V 3.60V
0.40nS
3.30V 3.00V 3.60V
0.60nS
3.30V 3.00V 3.59V
0.80nS
3.30V 3.00V 3.52V
1.00nS
3.25V 3.00V 3.43V
1.20nS
3.17V 3.00V 3.34V
1.40nS
3.12V 3.00V 3.27V
1.60nS
3.05V 3.00V 3.17V
1.80nS
2.97V 2.97V 3.06V
2.00nS
2.87V 2.92V 2.95V
2.20nS
2.78V 2.87V 2.83V
2.40nS
2.68V 2.82V 2.70V
2.60nS
2.58V 2.76V 2.58V
2.80nS
2.45V 2.69V 2.43V
3.00nS
2.34V 2.62V 2.30V
3.20nS
2.26V 2.57V 2.21V
3.40nS
2.17V 2.50V 2.07V
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
MOTOROLA
DSP56371 Technical Data
65
3.60nS
2.07V 2.44V 1.91V
3.80nS
1.98V 2.38V 1.76V
4.00nS
1.89V 2.32V 1.62V
4.20nS
1.76V 2.25V 1.49V
4.40nS
1.63V 2.18V 1.37V
4.60nS
1.55V 2.15V 1.32V
4.80nS
1.48V 2.11V 1.27V
5.00nS
1.40V 2.06V 1.21V
5.20nS
1.32V 2.01V 1.16V
5.40nS
1.25V 1.96V 1.10V
5.60nS
1.19V 1.92V 1.06V
5.80nS
1.15V 1.89V 1.04V
6.00nS
1.13V 1.87V 1.02V
6.20nS
1.10V 1.84V 1.00V
6.40nS
1.07V 1.81V 0.98V
6.60nS
1.05V 1.78V 0.96V
6.80nS
1.03V 1.75V 0.95V
7.00nS
1.02V 1.72V 0.94V
7.20nS
1.01V 1.70V 0.93V
7.40nS
1.00V 1.67V 0.93V
7.60nS
1.00V 1.64V 0.92V
7.80nS
1.00V 1.62V 0.92V
8.00nS
1.00V 1.60V 0.92V
8.20nS
0.99V 1.57V 0.92V
8.40nS
0.99V 1.53V 0.92V
8.60nS
0.99V 1.50V 0.92V
8.80nS
0.99V 1.47V 0.92V
9.00nS
0.99V 1.44V 0.92V
9.20nS
0.99V 1.42V 0.92V
9.40nS 0.99V
1.40V
0.92V
9.60nS
0.99V 1.38V 0.92V
9.80nS
0.99V 1.37V 0.92V
10.00nS
0.99V 1.36V 0.92V
|
| End [Model] prd16dgz
|
|************************************************************************
| Model prd24dgz
|************************************************************************
|
[Model] prd24dgz
Model_type I/O
Polarity Non-Inverting
Enable Active-Low
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
66
DSP56371 Technical Data
MOTOROLA
Vinl = 0.80V
Vinh = 2.00V
Vmeas = 1.50V
Cref = 50.00pF
Rref = 1.00M
Vref = 0.000V
C_comp
4.15pF 3.73pF 4.56pF
|
|
[Temperature Range]
25.00
0.12k
0.000
[Pullup Reference]
3.30V
3.00V
3.60V
[Pulldown
Reference]
0.000V 0.000V 0.000V
[POWER
Clamp
Reference] 5.00V 4.50V 5.50V
[GND Clamp Reference]
0.000V
0.000V
0.000V
[Pulldown]
| voltage I(typ)
I(min)
I(max)
|
-3.30 -10.00mA
0.000A 0.000A
-3.10 0.000A 0.000A -10.00mA
-2.90 0.000A 0.000A 0.000A
-2.70 0.000A 0.000A 0.000A
-2.50 0.000A 0.000A 0.000A
-2.30 0.000A 0.000A -10.00mA
-2.10 -10.00mA
0.000A -10.00mA
-1.90 -10.00mA
0.000A -10.00mA
-1.70
-10.00mA -10.00mA -10.00mA
-1.50
-10.00mA -10.00mA -20.00mA
-1.00
-19.00mA -10.00mA -23.00mA
-0.90
-21.00mA -10.00mA -26.00mA
-0.80
-41.70mA -11.00mA -55.33mA
-0.70
-50.61mA -14.60mA -55.12mA
-0.60
-46.07mA -25.10mA -50.21mA
-0.50
-39.45mA -26.37mA -43.90mA
-0.40
-32.03mA -22.06mA -36.08mA
-0.30
-24.29mA -16.63mA -27.48mA
-0.20
-16.36mA -11.11mA -18.57mA
-0.10 -8.26mA -5.55mA -9.40mA
-0.00 3.80nA 7.33nA 12.06nA
0.10 8.11mA 5.36mA 9.30mA
0.20
15.76mA 10.37mA 18.18mA
0.30
22.98mA 15.05mA 26.64mA
0.40 29.76mA
19.40mA
34.69mA
0.50
36.11mA 23.42mA 42.32mA
0.60
42.04mA 27.12mA 49.54mA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
67
0.70
47.55mA 30.50mA 56.36mA
0.80
52.66mA 33.58mA 62.78mA
0.90
57.35mA 36.36mA 68.80mA
1.00
61.65mA 38.84mA 74.42mA
1.10
65.55mA 41.04mA 79.65mA
1.20
69.06mA 42.96mA 84.48mA
1.30
72.19mA 44.61mA 88.92mA
1.40 74.94mA
45.99mA
92.97mA
1.50
77.32mA 47.12mA 96.63mA
1.60
79.33mA 48.01mA 99.91mA
1.70
80.95mA 48.68mA 0.10A
1.80
82.19mA 49.17mA 0.11A
1.90
83.09mA 49.54mA 0.11A
2.00
83.74mA 49.83mA 0.11A
2.10
84.23mA 50.06mA 0.11A
2.20
84.62mA 50.25mA 0.11A
2.30
84.93mA 50.42mA 0.11A
2.40
85.20mA 50.57mA 0.11A
2.50
85.44mA 50.70mA 0.11A
2.60
85.65mA 50.82mA 0.11A
2.70
85.84mA 50.93mA 0.11A
2.80
86.01mA 51.03mA 0.11A
2.90
86.18mA 51.13mA 0.11A
3.00
86.33mA 51.22mA 0.11A
3.10
86.48mA 51.31mA 0.11A
3.20
86.62mA 51.40mA 0.11A
3.30
86.75mA 51.50mA 0.11A
3.40
86.89mA 51.73mA 0.12A
3.50
87.06mA 52.32mA 0.12A
3.60
87.16mA 53.14mA 0.12A
3.70
87.30mA 54.02mA 0.12A
3.80
87.47mA 54.48mA 0.12A
3.90
87.77mA 52.16mA 0.12A
4.00
88.66mA 52.28mA 0.12A
4.10
90.00mA 52.42mA 0.12A
4.20
91.34mA 52.58mA 0.12A
4.30
89.39mA 52.77mA 0.12A
4.50
89.66mA 53.24mA 0.12A
4.70
90.64mA 53.86mA 0.12A
4.90
91.94mA 54.68mA 0.12A
5.10
93.66mA 55.73mA 0.12A
5.30
95.77mA 57.03mA 0.13A
5.50
98.33mA 58.59mA 0.13A
5.70 0.10A 60.44mA
0.13A
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
68
DSP56371 Technical Data
MOTOROLA
5.90 0.10A 62.55mA
0.14A
6.10 0.11A 64.93mA
0.14A
6.60 0.12A 71.83mA
0.15A
|
[Pullup]
| voltage I(typ)
I(min)
I(max)
|
-3.30 0.22A 0.16A 0.25A
-3.10 0.21A 0.16A 0.24A
-2.90 0.20A 0.15A 0.23A
-2.70
0.19A 0.14A 0.22A
-2.50
0.18A 0.14A 0.21A
-2.30 0.17A 0.13A 0.20A
-2.10 0.16A 0.12A 0.19A
-1.90 0.15A 0.11A 0.17A
-1.70 0.14A 0.10A 0.16A
-1.50 0.12A 90.15mA
0.14A
-1.00 92.80mA 62.50mA 0.11A
-0.90 84.30mA 57.02mA 97.94mA
-0.80 75.06mA 54.41mA 87.24mA
-0.70 65.63mA 47.70mA 76.50mA
-0.60 56.31mA 40.65mA 66.14mA
-0.50 47.22mA 33.53mA 55.68mA
-0.40
38.00mA 26.51mA 44.96mA
-0.30 28.62mA 19.71mA 34.00mA
-0.20 19.12mA 13.04mA 22.83mA
-0.10 9.57mA 6.46mA 11.50mA
0.00 34.08uA 11.19uA 71.92uA
0.10 -9.20mA -6.16mA -11.08mA
0.20
-17.92mA -11.98mA -21.68mA
0.30
-26.12mA -17.45mA -31.71mA
0.40
-33.83mA -22.56mA -41.21mA
0.50
-41.04mA -27.33mA -50.17mA
0.60
-47.76mA -31.76mA -58.60mA
0.70
-54.01mA -35.85mA -66.51mA
0.80
-59.78mA -39.61mA -73.91mA
0.90
-65.10mA -43.04mA -80.81mA
1.00
-69.96mA -46.14mA -87.22mA
1.10
-74.37mA -48.91mA
-93.14mA
1.20
-78.35mA -51.37mA -98.58mA
1.30
-81.89mA -53.51mA -0.10A
1.40
-85.01mA -55.34mA -0.11A
1.50
-87.72mA -56.87mA -0.11A
1.60
-90.01mA
-58.11mA
-0.12A
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Freescale Semiconductor, Inc.
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IBIS Model
MOTOROLA
DSP56371 Technical Data
69
1.70
-91.93mA -59.08mA -0.12A
1.80
-93.48mA -59.83mA -0.12A
1.90
-94.74mA -60.42mA -0.12A
2.00
-95.77mA -60.91mA -0.13A
2.10
-96.63mA -61.34mA -0.13A
2.20
-97.36mA -61.71mA -0.13A
2.30
-97.99mA -62.05mA -0.13A
2.40
-98.55mA -62.36mA -0.13A
2.50
-99.04mA -62.64mA -0.13A
2.60
-99.49mA -62.90mA -0.13A
2.70
-99.89mA
-63.14mA
-0.13A
2.80
-0.10A
-63.36mA
-0.13A
2.90 -0.10A -63.57mA
-0.13A
3.00
-0.10A -63.78mA
-0.13A
3.10 -0.10A -63.97mA
-0.14A
3.20 -0.10A -64.15mA
-0.14A
3.30 -0.10A -64.35mA
-0.14A
3.40 -0.10A -64.99mA
-0.14A
3.50 -0.10A -72.69mA
-0.14A
3.60 -0.10A -0.17A -0.14A
3.70 -0.10A -0.97A -0.14A
3.80 -0.10A -2.72A -0.14A
3.90 -0.11A -4.50A -0.14A
4.00 -0.12A -6.28A -0.14A
4.10 -0.34A -8.06A -0.14A
4.20 -1.90A -9.85A -0.14A
4.30 -3.94A -11.62A
-0.15A
4.50 -8.02A -15.19A
-1.21A
4.70 -12.10A -18.75A -5.43A
4.90 -16.18A -22.31A -9.67A
5.10 -20.27A -25.88A -13.90A
5.30 -24.35A -29.44A -18.14A
5.50 -28.43A -33.00A -22.38A
5.70 -32.51A -36.56A -26.62A
5.90 -36.60A -40.13A -30.86A
6.10 -40.68A -43.69A -35.09A
6.60 -50.89A -52.59A -45.69A
|
[GND_clamp]
| voltage I(typ)
I(min)
I(max)
|
-5.00 -85.26A -77.43A -87.91A
-4.80 -81.20A -73.87A -83.67A
-4.60
-77.14A -70.31A -79.43A
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
70
DSP56371 Technical Data
MOTOROLA
-4.40 -73.08A -66.75A -75.19A
-4.20 -69.02A -63.19A -70.95A
-4.00
-64.96A
-59.63A
-66.71A
-3.80 -60.90A -56.07A -62.47A
-3.60 -56.84A -52.51A -58.23A
-3.40
-52.78A
-48.95A
-53.99A
-3.20 -48.72A -45.39A -49.75A
-3.00 -44.64A -41.83A -45.52A
-2.80 -40.56A -38.27A -41.29A
-2.60 -36.48A -34.71A -37.05A
-2.40
-32.40A
-31.15A
-32.82A
-2.20 -28.32A -27.59A -28.58A
-2.00 -24.24A -24.03A -24.35A
-1.80 -20.16A -20.47A -20.11A
-1.60 -16.08A -16.90A -15.88A
-1.40 -12.00A -13.34A -11.64A
-1.20
-7.92A -9.78A -7.41A
-1.00 -3.84A -6.22A -3.18A
-0.80 -0.23A -2.66A -71.67mA
-0.60 -2.33mA
-0.10A -6.23mA
-0.40 -91.55uA
-0.52mA
-0.28mA
-0.20 -27.91uA -14.70uA -42.94uA
-0.00 -75.80nA -77.03nA -90.19nA
0.20 18.72uA
7.32uA 32.29uA
0.40 29.20uA 10.26uA 54.13uA
0.60 32.50uA 10.68uA 65.79uA
0.80 33.08uA 10.79uA 69.34uA
1.00 33.30uA 10.86uA 70.18uA
1.20 33.45uA 10.92uA 70.55uA
1.40 33.57uA 10.98uA 70.80uA
1.60 33.68uA 11.03uA 71.00uA
1.80 33.78uA 11.07uA 71.16uA
2.00 33.87uA 11.11uA 71.32uA
2.20 33.96uA 11.14uA 71.47uA
2.40 34.01uA 11.15uA 71.61uA
2.60 34.03uA 11.16uA 71.76uA
2.80 34.04uA 11.17uA 71.84uA
3.00 34.05uA 11.18uA 71.86uA
3.20 34.06uA 11.75uA 71.88uA
3.40 34.08uA 10.69uA 71.90uA
3.60 34.10uA
9.63uA 71.92uA
3.80 34.12uA
8.57uA 71.94uA
4.00 34.14uA
7.51uA 71.96uA
4.20 34.16uA
6.45uA 71.98uA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
71
4.40 34.18uA
5.39uA
72.00uA
4.60 34.20uA
4.33uA 72.02uA
4.80 34.22uA
3.27uA 72.04uA
5.00 34.24uA
2.21uA 72.06uA
|
[POWER_clamp]
| voltage I(typ)
I(min)
I(max)
|
-5.00 48.55uA 16.31uA 95.55uA
-4.90 48.22uA 16.19uA 95.05uA
-4.80 47.89uA 16.07uA 94.55uA
-4.70 47.56uA
15.95uA
94.05uA
-4.60 47.23uA 15.83uA 93.55uA
-4.50 46.90uA 15.71uA 93.05uA
-4.40 46.57uA 15.59uA 92.55uA
-4.30 46.24uA 15.47uA 92.05uA
-4.20 45.91uA 15.35uA 91.55uA
-4.10 45.58uA 15.23uA 91.05uA
-4.00 45.25uA 15.11uA 90.55uA
-3.90 44.92uA 14.99uA 90.05uA
-3.80 44.59uA 14.87uA 89.55uA
-3.70 44.26uA 14.75uA 89.05uA
-3.60 43.93uA 14.63uA 88.55uA
-3.50 43.60uA 14.51uA 88.05uA
-3.40 43.27uA 14.39uA 87.55uA
-3.30 42.94uA 14.27uA 87.05uA
-3.20 42.61uA 14.15uA 86.55uA
-3.10 42.28uA 14.03uA 86.05uA
-3.00 41.95uA 13.91uA 85.55uA
-2.90 41.62uA 13.79uA 85.05uA
-2.80 41.29uA 13.67uA 84.55uA
-2.70 40.96uA 13.55uA 84.05uA
-2.60 40.63uA 13.43uA 83.55uA
-2.50 40.30uA 13.31uA 83.05uA
-2.40 39.97uA 13.19uA 82.55uA
-2.30 39.64uA 13.07uA 82.05uA
-2.20 39.31uA 12.95uA 81.55uA
-2.10 38.98uA 12.83uA 81.05uA
-2.00 38.65uA 12.71uA 80.55uA
-1.90 38.32uA 12.59uA 80.05uA
-1.80 37.99uA 12.47uA 79.55uA
-1.70 37.66uA 12.35uA 79.05uA
-1.60 37.33uA 12.23uA 78.55uA
-1.50 37.00uA 12.13uA 78.05uA
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For More Information On This Product,
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IBIS Model
72
DSP56371 Technical Data
MOTOROLA
-1.40 36.69uA 12.03uA 77.55uA
-1.30 36.40uA 11.94uA 77.05uA
-1.20 36.13uA 11.85uA 76.55uA
-1.10 35.88uA 11.78uA 76.05uA
-1.00 35.64uA 11.71uA 75.55uA
-0.90 35.43uA 11.64uA 75.08uA
-0.80 35.24uA 11.59uA 74.65uA
-0.70 35.07uA 11.54uA 74.26uA
-0.60 34.92uA 11.49uA 73.91uA
-0.50 34.79uA 11.45uA 73.60uA
-0.40 34.67uA 11.42uA 73.32uA
-0.30 34.57uA 11.39uA 73.08uA
-0.20 34.49uA 11.37uA 72.88uA
-0.10 34.42uA 11.35uA 72.70uA
0.00 34.36uA 11.33uA 72.56uA
|
[Ramp]
| variable typ
min
max
dV/dt_r 1.54/2.22n 1.20/2.88n 1.77/2.15n
dV/dt_f 1.52/3.16n 1.15/4.46n 1.73/3.00n
R_load = 50.00
|
[Rising Waveform]
R_fixture = 50.00
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ) V(min) V(max)
|
0.000S
0.70uV 0.92uV 0.68uV
0.20nS
0.45uV 0.77uV 0.000V
0.40nS -5.49uV -1.76uV 16.07uV
0.60nS -0.25mV -4.97uV -2.66mV
0.80nS -2.88mV 24.27uV -5.55mV
1.00nS -3.85mV -5.54uV 32.40mV
1.20nS 18.80mV -0.76mV 80.52mV
1.40nS 45.63mV -3.09mV 0.11V
1.60nS 80.05mV -6.58mV 0.16V
1.80nS 0.11V
-0.18mV 0.21V
2.00nS 0.16V
21.52mV 0.27V
2.20nS 0.20V
48.21mV 0.33V
2.40nS 0.26V
76.15mV 0.41V
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
MOTOROLA
DSP56371 Technical Data
73
2.60nS
0.32V 0.11V 0.48V
2.80nS
0.41V 0.16V 0.61V
3.00nS
0.51V 0.19V 0.73V
3.20nS
0.58V 0.24V 0.82V
3.40nS
0.71V 0.30V 0.97V
3.60nS
0.85V 0.36V 1.16V
3.80nS
1.00V 0.45V 1.35V
4.00nS
1.17V 0.54V 1.55V
4.20nS
1.38V 0.67V 1.80V
4.40nS
1.57V 0.80V 2.03V
4.60nS
1.68V 0.88V 2.15V
4.80nS
1.78V 0.96V 2.26V
5.00nS
1.91V 1.06V 2.39V
5.20nS
2.01V 1.15V 2.51V
5.40nS
2.13V 1.25V 2.61V
5.60nS
2.22V 1.34V 2.70V
5.80nS
2.27V 1.40V 2.74V
6.00nS
2.31V 1.44V 2.77V
6.20nS
2.35V 1.50V 2.80V
6.40nS
2.38V 1.56V 2.82V
6.60nS
2.41V 1.61V 2.84V
6.80nS
2.43V 1.66V 2.86V
7.00nS
2.45V 1.70V 2.87V
7.20nS
2.46V 1.74V 2.88V
7.40nS
2.48V 1.78V 2.89V
7.60nS
2.49V 1.82V 2.90V
7.80nS
2.50V 1.84V 2.91V
8.00nS
2.51V 1.86V 2.91V
8.20nS
2.52V 1.88V 2.92V
8.40nS
2.52V 1.90V 2.92V
8.60nS
2.53V 1.92V 2.92V
8.80nS
2.54V 1.93V 2.93V
9.00nS
2.54V 1.95V 2.93V
9.20nS
2.55V 1.96V 2.94V
9.40nS
2.55V 1.97V 2.94V
9.60nS
2.56V 1.98V 2.94V
9.80nS
2.56V 2.00V 2.95V
10.00nS
2.57V 2.00V 2.95V
|
[Rising Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
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IBIS Model
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DSP56371 Technical Data
MOTOROLA
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ) V(min) V(max)
|
0.000S 0.76V
1.03V
0.72V
0.20nS
0.76V 1.03V 0.72V
0.40nS
0.76V 1.03V 0.72V
0.60nS
0.76V 1.03V 0.72V
0.80nS
0.77V 1.03V 0.73V
1.00nS
0.81V 1.03V 0.82V
1.20nS
0.90V 1.03V 0.93V
1.40nS
0.98V 1.04V 1.01V
1.60nS
1.09V 1.11V 1.13V
1.80nS
1.22V 1.20V 1.26V
2.00nS
1.35V 1.32V 1.42V
2.20nS
1.51V 1.45V 1.58V
2.40nS
1.69V 1.59V 1.78V
2.60nS
1.91V 1.74V 2.02V
2.80nS
2.22V 1.96V 2.36V
3.00nS
2.47V 2.16V 2.63V
3.20nS
2.65V 2.31V 2.82V
3.40nS
2.85V 2.49V 3.03V
3.60nS
2.97V 2.62V 3.17V
3.80nS
3.08V 2.73V 3.30V
4.00nS
3.14V 2.83V 3.36V
4.20nS
3.19V 2.89V 3.42V
4.40nS
3.23V 2.94V 3.47V
4.60nS
3.25V 2.95V 3.50V
4.80nS
3.27V 2.97V 3.52V
5.00nS
3.28V 2.98V 3.54V
5.20nS
3.29V 2.99V 3.56V
5.40nS
3.29V 2.99V 3.57V
5.60nS
3.30V 3.00V 3.58V
5.80nS
3.30V 3.00V 3.59V
6.00nS
3.30V 3.00V 3.59V
6.20nS
3.30V 3.00V 3.59V
6.40nS
3.30V 3.00V 3.60V
6.60nS
3.30V 3.00V 3.60V
6.80nS
3.30V 3.00V 3.60V
7.00nS
3.30V 3.00V 3.60V
7.20nS
3.30V 3.00V 3.60V
7.40nS
3.30V 3.00V 3.60V
7.60nS
3.30V 3.00V 3.60V
7.80nS
3.30V 3.00V 3.60V
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IBIS Model
MOTOROLA
DSP56371 Technical Data
75
8.00nS
3.30V 3.00V 3.60V
8.20nS
3.30V 3.00V 3.60V
8.40nS
3.30V 3.00V 3.60V
8.60nS
3.30V 3.00V 3.60V
8.80nS
3.30V 3.00V 3.60V
9.00nS
3.30V 3.00V 3.60V
9.20nS
3.30V 3.00V 3.60V
9.40nS
3.30V 3.00V 3.60V
9.60nS
3.30V 3.00V 3.60V
9.80nS
3.30V 3.00V 3.60V
10.00nS
3.30V 3.00V 3.60V
|
[Falling Waveform]
R_fixture = 50.00
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
| time V(typ) V(min) V(max)
|
0.000S 2.62V
2.12V
2.99V
0.20nS
2.62V 2.12V 2.99V
0.40nS
2.62V 2.12V 2.99V
0.60nS
2.62V 2.12V 2.96V
0.80nS
2.60V 2.12V 2.85V
1.00nS
2.50V 2.12V 2.72V
1.20nS
2.38V 2.11V 2.59V
1.40nS
2.29V 2.09V 2.50V
1.60nS
2.17V 2.04V 2.36V
1.80nS
2.04V 1.96V 2.20V
2.00nS
1.89V 1.85V 2.00V
2.20nS
1.71V 1.74V 1.76V
2.40nS
1.51V 1.63V 1.49V
2.60nS
1.27V 1.50V 1.23V
2.80nS
0.99V 1.33V 0.98V
3.00nS
0.81V 1.17V 0.83V
3.20nS
0.71V 1.04V 0.75V
3.40nS
0.59V 0.87V 0.66V
3.60nS
0.51V 0.72V 0.57V
3.80nS
0.44V 0.59V 0.50V
4.00nS
0.37V 0.49V 0.45V
4.20nS
0.31V 0.40V 0.38V
4.40nS
0.26V 0.33V 0.32V
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IBIS Model
76
DSP56371 Technical Data
MOTOROLA
4.60nS
0.23V 0.28V 0.29V
4.80nS
0.20V 0.25V 0.26V
5.00nS
0.17V 0.21V 0.23V
5.20nS
0.15V 0.18V 0.20V
5.40nS
0.12V 0.14V 0.17V
5.60nS 92.71mV 0.11V
0.14V
5.80nS 79.46mV 96.17mV 0.12V
6.00nS 67.17mV 83.01mV 0.11V
6.20nS 54.74mV 65.86mV 89.82mV
6.40nS 42.77mV 53.06mV 75.55mV
6.60nS 33.26mV 41.31mV 61.63mV
6.80nS 25.46mV 31.29mV 50.25mV
7.00nS 18.21mV 23.99mV 40.51mV
7.20nS 13.43mV 16.92mV 31.37mV
7.40nS 8.06mV 11.32mV 23.11mV
7.60nS 4.81mV 6.46mV 15.54mV
7.80nS 3.27mV 4.82mV 12.49mV
8.00nS 1.98mV 3.62mV 9.63mV
8.20nS 1.32mV 2.10mV 6.17mV
8.40nS 0.78mV 1.45mV 4.24mV
8.60nS 0.50mV 1.01mV 2.46mV
8.80nS 0.42mV 0.70mV 1.45mV
9.00nS 0.34mV 0.61mV 0.94mV
9.20nS 0.30mV 0.51mV 0.50mV
9.40nS 0.27mV 0.45mV 0.38mV
9.60nS 0.24mV 0.40mV 0.28mV
9.80nS 0.21mV 0.35mV 0.23mV
10.00nS
0.22mV 0.32mV 0.21mV
|
[Falling Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
L_fixture = 0.000H
C_fixture = 0.000F
| time
V(typ)
V(min)
V(max)
|
0.000S
3.30V 3.00V 3.60V
0.20nS
3.30V 3.00V 3.60V
0.40nS
3.30V 3.00V 3.60V
0.60nS
3.30V 3.00V 3.59V
0.80nS
3.30V 3.00V 3.52V
1.00nS
3.25V 3.00V 3.44V
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IBIS Model
MOTOROLA
DSP56371 Technical Data
77
1.20nS
3.18V 3.00V 3.37V
1.40nS
3.14V 3.00V 3.32V
1.60nS
3.09V 3.00V 3.24V
1.80nS
3.03V 2.97V 3.16V
2.00nS
2.96V 2.92V 3.07V
2.20nS
2.88V 2.88V 2.98V
2.40nS
2.80V 2.84V 2.88V
2.60nS
2.72V 2.80V 2.78V
2.80nS
2.61V 2.74V 2.65V
3.00nS
2.51V 2.68V 2.55V
3.20nS
2.44V 2.64V 2.47V
3.40nS
2.34V 2.58V 2.35V
3.60nS 2.25V
2.52V
2.23V
3.80nS
2.15V 2.46V 2.09V
4.00nS
2.06V 2.39V 1.93V
4.20nS
1.93V 2.32V 1.75V
4.40nS
1.81V 2.24V 1.58V
4.60nS
1.73V 2.20V 1.50V
4.80nS
1.65V 2.15V 1.43V
5.00nS
1.54V 2.09V 1.34V
5.20nS
1.44V 2.04V 1.26V
5.40nS
1.32V 1.97V 1.18V
5.60nS
1.23V 1.91V 1.11V
5.80nS
1.18V 1.87V 1.07V
6.00nS
1.13V 1.84V 1.04V
6.20nS
1.08V 1.79V 1.00V
6.40nS
1.04V 1.75V 0.96V
6.60nS
1.00V 1.71V 0.92V
6.80nS
0.96V 1.67V 0.89V
7.00nS
0.93V 1.63V 0.87V
7.20nS
0.90V 1.59V 0.84V
7.40nS
0.87V 1.54V 0.82V
7.60nS
0.85V 1.48V 0.80V
7.80nS
0.83V 1.44V 0.78V
8.00nS
0.82V 1.40V 0.78V
8.20nS
0.81V 1.35V 0.76V
8.40nS
0.80V 1.31V 0.75V
8.60nS
0.79V 1.27V 0.75V
8.80nS
0.78V 1.23V 0.74V
9.00nS
0.78V 1.20V 0.73V
9.20nS
0.78V 1.17V 0.73V
9.40nS
0.77V 1.15V 0.73V
9.60nS
0.77V 1.12V 0.72V
9.80nS
0.77V 1.10V 0.72V
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Freescale Semiconductor, Inc.
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IBIS Model
78
DSP56371 Technical Data
MOTOROLA
10.00nS
0.77V 1.09V 0.72V
|
| End [Model] prd24dgz
|
|************************************************************************
| Model prt24dgz
|************************************************************************
|
[Model] prt24dgz
Model_type 3-state
Polarity Non-Inverting
Enable Active-Low
Vmeas = 1.50V
Cref = 50.00pF
Rref = 1.00M
Vref = 0.000V
C_comp
4.09pF 3.68pF 4.50pF
|
|
[Temperature Range]
25.00
0.12k
0.000
[Pullup
Reference] 3.30V 3.00V 3.60V
[Pulldown
Reference]
0.000V 0.000V 0.000V
[POWER Clamp Reference] 5.00V
4.50V
5.50V
[GND Clamp Reference]
0.000V
0.000V
0.000V
[Pulldown]
| voltage I(typ)
I(min)
I(max)
|
-3.30 -10.00mA
0.000A 0.000A
-3.10 0.000A 0.000A -10.00mA
-2.90 0.000A 0.000A 0.000A
-2.70 0.000A 0.000A 0.000A
-2.50 0.000A 0.000A 0.000A
-2.30 0.000A 0.000A -10.00mA
-2.10 -10.00mA
0.000A -10.00mA
-1.90 -10.00mA
0.000A -10.00mA
-1.70
-10.00mA -10.00mA -10.00mA
-1.50
-10.00mA -10.00mA -20.00mA
-1.00
-20.00mA -10.00mA -23.00mA
-0.90
-21.00mA -10.00mA -26.00mA
-0.80
-41.70mA -12.00mA -55.37mA
-0.70
-50.60mA -14.60mA -55.11mA
-0.60
-46.07mA -25.10mA -50.21mA
-0.50
-39.45mA -26.38mA -43.90mA
-0.40
-32.03mA -22.06mA -36.09mA
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IBIS Model
MOTOROLA
DSP56371 Technical Data
79
-0.30
-24.30mA -16.63mA -27.49mA
-0.20
-16.36mA -11.10mA -18.57mA
-0.10 -8.26mA -5.55mA -9.40mA
-0.00 3.97nA 7.41nA 12.45nA
0.10 8.11mA 5.36mA 9.30mA
0.20
15.76mA 10.38mA 18.18mA
0.30
22.98mA 15.05mA 26.64mA
0.40
29.76mA 19.40mA 34.68mA
0.50
36.11mA 23.42mA 42.32mA
0.60
42.04mA 27.11mA 49.54mA
0.70
47.55mA 30.50mA 56.36mA
0.80
52.65mA 33.58mA 62.78mA
0.90
57.35mA 36.36mA 68.80mA
1.00
61.64mA 38.84mA 74.42mA
1.10
65.54mA 41.04mA 79.65mA
1.20
69.06mA 42.96mA 84.48mA
1.30
72.18mA 44.61mA 88.92mA
1.40
74.93mA 45.99mA 92.97mA
1.50 77.31mA
47.12mA
96.63mA
1.60
79.32mA 48.01mA 99.91mA
1.70
80.95mA 48.68mA 0.10A
1.80
82.19mA 49.17mA 0.11A
1.90
83.08mA 49.54mA 0.11A
2.00
83.74mA 49.82mA 0.11A
2.10
84.23mA 50.06mA 0.11A
2.20
84.61mA 50.25mA 0.11A
2.30
84.93mA 50.42mA 0.11A
2.40
85.20mA 50.57mA 0.11A
2.50
85.43mA 50.70mA 0.11A
2.60
85.64mA 50.82mA 0.11A
2.70
85.83mA 50.93mA 0.11A
2.80
86.01mA 51.03mA 0.11A
2.90
86.17mA 51.13mA 0.11A
3.00
86.32mA 51.22mA 0.11A
3.10
86.47mA 51.31mA 0.11A
3.20
86.61mA 51.40mA 0.11A
3.30
86.75mA 51.50mA 0.11A
3.40
86.88mA 51.73mA 0.12A
3.50
87.01mA 52.32mA 0.12A
3.60
87.15mA 53.14mA 0.12A
3.70
87.30mA 54.01mA 0.12A
3.80
87.47mA 54.42mA 0.12A
3.90
87.77mA 52.16mA 0.12A
4.00
88.66mA 52.28mA 0.12A
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
80
DSP56371 Technical Data
MOTOROLA
4.10
90.00mA 52.42mA 0.12A
4.20
91.29mA 52.58mA 0.12A
4.30
89.03mA 52.77mA 0.12A
4.50
89.65mA 53.24mA 0.12A
4.70
90.63mA 53.86mA 0.12A
4.90
91.94mA 54.68mA 0.12A
5.10
93.62mA 55.72mA 0.12A
5.30
95.73mA 57.02mA 0.13A
5.50
98.29mA 58.58mA 0.13A
5.70 0.10A 60.42mA
0.13A
5.90 0.10A 62.54mA
0.14A
6.10 0.11A 64.92mA
0.14A
6.60 0.12A 71.81mA
0.15A
|
[Pullup]
| voltage I(typ)
I(min)
I(max)
|
-3.30 0.22A 0.16A
0.25A
-3.10 0.21A 0.16A 0.24A
-2.90 0.20A 0.15A 0.23A
-2.70 0.19A 0.14A 0.22A
-2.50 0.18A 0.14A 0.21A
-2.30 0.17A 0.13A 0.20A
-2.10 0.16A 0.12A 0.18A
-1.90 0.15A 0.11A 0.17A
-1.70 0.14A 0.10A 0.16A
-1.50 0.12A 90.13mA
0.14A
-1.00 92.59mA 62.48mA 0.11A
-0.90 84.26mA 56.95mA 97.88mA
-0.80 75.03mA 54.36mA 87.19mA
-0.70 65.60mA 47.69mA 76.45mA
-0.60 56.28mA 40.63mA 66.08mA
-0.50 47.19mA 33.52mA 55.62mA
-0.40 37.96mA 26.49mA 44.89mA
-0.30 28.58mA 19.70mA 33.93mA
-0.20 19.09mA 13.03mA 22.76mA
-0.10 9.54mA 6.45mA 11.43mA
0.00 0.17uA 0.16uA 0.19uA
0.10 -9.23mA -6.17mA -11.15mA
0.20
-17.95mA -11.99mA -21.75mA
0.30
-26.16mA -17.46mA -31.79mA
0.40
-33.86mA -22.57mA -41.28mA
0.50
-41.07mA -27.35mA -50.24mA
0.60
-47.79mA -31.77mA -58.67mA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
81
0.70
-54.04mA -35.86mA -66.58mA
0.80
-59.82mA -39.62mA -73.98mA
0.90
-65.13mA -43.05mA -80.88mA
1.00
-69.99mA -46.15mA -87.29mA
1.10
-74.41mA -48.92mA -93.21mA
1.20
-78.38mA -51.38mA -98.65mA
1.30
-81.93mA -53.52mA -0.10A
1.40
-85.05mA -55.36mA -0.11A
1.50
-87.75mA -56.88mA -0.11A
1.60
-90.05mA -58.12mA -0.12A
1.70
-91.96mA -59.09mA -0.12A
1.80
-93.52mA -59.84mA -0.12A
1.90
-94.78mA -60.43mA -0.12A
2.00
-95.80mA -60.92mA -0.13A
2.10
-96.66mA -61.35mA -0.13A
2.20
-97.39mA -61.72mA -0.13A
2.30
-98.03mA -62.06mA -0.13A
2.40
-98.58mA -62.37mA -0.13A
2.50
-99.08mA -62.65mA -0.13A
2.60
-99.52mA -62.91mA -0.13A
2.70
-99.92mA -63.15mA -0.13A
2.80 -0.10A -63.37mA
-0.13A
2.90 -0.10A -63.58mA
-0.13A
3.00 -0.10A -63.78mA
-0.13A
3.10 -0.10A -63.96mA
-0.14A
3.20 -0.10A -64.14mA
-0.14A
3.30 -0.10A -64.33mA
-0.14A
3.40 -0.10A -64.95mA
-0.14A
3.50 -0.10A -72.61mA
-0.14A
3.60 -0.10A -0.17A -0.14A
3.70 -0.10A -0.97A -0.14A
3.80 -0.10A -2.72A -0.14A
3.90 -0.11A -4.50A -0.14A
4.00 -0.12A -6.28A -0.14A
4.10 -0.34A -8.06A -0.14A
4.20 -1.90A -9.85A -0.14A
4.30 -3.94A -11.62A
-0.15A
4.50 -8.02A -15.19A
-1.20A
4.70 -12.10A -18.75A -5.43A
4.90 -16.18A -22.31A -9.67A
5.10 -20.27A -25.88A -13.90A
5.30 -24.35A -29.44A -18.14A
5.50 -28.43A -33.00A -22.38A
5.70 -32.51A -36.56A -26.62A
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
82
DSP56371 Technical Data
MOTOROLA
5.90 -36.60A -40.13A -30.86A
6.10 -40.68A -43.69A -35.09A
6.60 -50.89A -52.59A -45.69A
|
[GND_clamp]
| voltage I(typ)
I(min)
I(max)
|
-3.30 -50.75A -47.17A -51.87A
-3.20 -48.72A -45.39A -49.75A
-3.10 -46.68A -43.61A -47.63A
-3.00 -44.64A -41.83A -45.52A
-2.90 -42.60A -40.05A -43.40A
-2.80 -40.56A -38.27A -41.29A
-2.70 -38.52A -36.49A -39.17A
-2.60 -36.48A -34.71A -37.05A
-2.50 -34.44A -32.93A -34.94A
-2.40 -32.40A -31.15A -32.82A
-2.30 -30.36A -29.37A -30.70A
-2.20 -28.32A -27.59A -28.58A
-2.10 -26.28A -25.81A -26.47A
-2.00 -24.24A -24.03A -24.35A
-1.90 -22.20A -22.25A -22.23A
-1.80 -20.16A -20.47A -20.11A
-1.70 -18.12A -18.68A -18.00A
-1.60 -16.08A -16.90A -15.88A
-1.50 -14.04A -15.12A -13.76A
-1.40 -12.00A -13.34A -11.64A
-1.30 -9.96A -11.56A -9.53A
-1.20 -7.92A -9.78A -7.41A
-1.10 -5.88A -8.00A -5.29A
-1.00 -3.84A -6.22A -3.18A
-0.90 -1.80A -4.44A -1.07A
-0.80 -0.23A -2.65A -71.53mA
-0.70 -13.26mA
-0.90A -13.93mA
-0.60 -2.23mA
-0.10A -6.08mA
-0.50 -0.34mA -7.99mA -1.62mA
-0.40 -28.68uA
-0.48mA
-0.18mA
-0.30 -1.65uA -27.22uA
-10.18uA
-0.20 -0.15uA -1.61uA -0.42uA
-0.10 -86.50nA
-0.17uA -0.11uA
-0.00 -76.61nA -77.36nA -91.73nA
0.10
-68.52nA -64.82nA -83.30nA
0.20
-60.47nA -56.49nA -75.01nA
0.30
-52.43nA -48.39nA -66.73nA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
83
0.40
-44.39nA -40.30nA -58.46nA
0.50
-36.35nA -32.21nA -50.19nA
0.60
-28.31nA -24.12nA -41.93nA
0.70
-20.27nA -16.03nA -33.68nA
0.80 -12.24nA
-7.94nA
-25.42nA
0.90 -4.20nA
0.15nA -17.17nA
1.00 3.83nA 8.23nA -8.92nA
1.10 11.86nA 16.32nA -0.67nA
1.20 19.89nA 24.41nA 7.58nA
1.30 27.92nA 32.50nA 15.84nA
1.40 35.95nA 40.59nA 24.10nA
1.50 43.98nA 48.68nA 32.36nA
1.60 52.00nA 56.77nA 40.64nA
1.70 60.02nA 64.85nA 48.92nA
1.80 68.04nA 72.94nA 57.21nA
1.90 76.05nA 81.03nA 65.52nA
2.00 84.05nA 89.12nA 73.85nA
2.10 92.04nA 97.20nA 82.20nA
2.20 100.00nA
0.11uA 90.59nA
2.30 0.11uA 0.11uA 99.01nA
2.40 0.12uA 0.12uA 0.11uA
2.50 0.12uA 0.12uA 0.12uA
2.60 0.13uA 0.13uA 0.12uA
2.70 0.13uA 0.13uA 0.13uA
2.80 0.14uA 0.13uA 0.14uA
2.90 0.14uA 0.14uA 0.15uA
3.00 0.15uA 0.15uA 0.15uA
3.10 0.15uA 0.17uA 0.16uA
3.20 0.15uA 0.56uA 0.16uA
3.30 0.16uA 0.19uA 0.17uA
|
[POWER_clamp]
| voltage
I(typ)
I(min)
I(max)
|
-3.30 0.37uA 0.37uA 0.40uA
-3.20 0.37uA 0.36uA 0.39uA
-3.10 0.36uA 0.36uA 0.39uA
-3.00 0.35uA 0.35uA 0.38uA
-2.90 0.35uA 0.34uA 0.37uA
-2.80 0.34uA 0.34uA 0.37uA
-2.70 0.33uA 0.33uA 0.36uA
-2.60 0.33uA 0.33uA 0.36uA
-2.50 0.32uA 0.32uA 0.35uA
-2.40 0.32uA 0.31uA 0.34uA
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
84
DSP56371 Technical Data
MOTOROLA
-2.30 0.31uA 0.31uA
0.34uA
-2.20 0.30uA 0.30uA
0.33uA
-2.10 0.30uA 0.29uA 0.32uA
-2.00 0.29uA 0.29uA 0.32uA
-1.90 0.28uA 0.28uA 0.31uA
-1.80 0.28uA 0.28uA 0.30uA
-1.70 0.27uA 0.27uA 0.30uA
-1.60
0.27uA 0.26uA 0.29uA
-1.50 0.26uA 0.26uA 0.29uA
-1.40 0.25uA 0.25uA 0.28uA
-1.30 0.25uA 0.25uA 0.27uA
-1.20 0.24uA 0.24uA 0.27uA
-1.10 0.24uA 0.23uA 0.26uA
-1.00 0.23uA 0.23uA 0.25uA
-0.90 0.22uA 0.22uA 0.25uA
-0.80 0.22uA 0.22uA 0.24uA
-0.70 0.21uA 0.21uA 0.24uA
-0.60 0.21uA 0.20uA 0.23uA
-0.50 0.20uA 0.20uA 0.22uA
-0.40 0.20uA 0.19uA 0.22uA
-0.30 0.19uA 0.19uA 0.21uA
-0.20 0.48mA 0.56uA 0.72uA
-0.10 0.16uA 0.17uA 0.18uA
0.00 0.16uA 0.15uA 0.18uA
|
[Ramp]
| variable
typ
min
max
dV/dt_r 1.54/2.19n 1.20/2.87n 1.77/2.14n
dV/dt_f 1.52/3.15n 1.15/4.45n 1.73/3.01n
R_load = 50.00
|
[Rising Waveform]
R_fixture = 50.00
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
time V(typ) V(min) V(max)
|
0.000S
0.70uV 0.93uV 0.69uV
0.20nS
0.46uV 0.77uV 0.000V
0.40nS -5.77uV -1.75uV 11.67uV
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
85
0.60nS -0.27mV -5.10uV -2.79mV
0.80nS -2.96mV 26.03uV -6.12mV
1.00nS -3.62mV -5.61uV 32.64mV
1.20nS 19.35mV -0.80mV 81.12mV
1.40nS 46.31mV -3.19mV 0.11V
1.60nS 79.98mV -6.88mV 0.16V
1.80nS 0.12V
-0.22mV 0.21V
2.00nS 0.16V
21.89mV 0.27V
2.20nS 0.20V
48.68mV
0.33V
2.40nS
0.26V 76.62mV
0.41V
2.60nS
0.32V 0.11V 0.49V
2.80nS
0.42V 0.16V 0.61V
3.00nS
0.51V 0.20V 0.73V
3.20nS
0.58V 0.24V 0.82V
3.40nS
0.71V 0.30V 0.99V
3.60nS
0.85V 0.36V 1.17V
3.80nS
1.01V 0.45V 1.36V
4.00nS
1.18V 0.54V 1.56V
4.20nS
1.38V 0.67V 1.81V
4.40nS
1.57V 0.81V 2.03V
4.60nS
1.69V 0.89V 2.16V
4.80nS
1.79V 0.96V 2.27V
5.00nS
1.91V 1.06V 2.40V
5.20nS
2.03V 1.15V 2.52V
5.40nS
2.14V 1.26V 2.61V
5.60nS
2.24V 1.35V 2.70V
5.80nS
2.28V 1.40V 2.74V
6.00nS
2.31V 1.45V 2.77V
6.20nS
2.36V 1.51V 2.80V
6.40nS
2.39V 1.56V 2.83V
6.60nS
2.41V 1.61V 2.85V
6.80nS
2.43V 1.66V 2.86V
7.00nS
2.45V 1.70V 2.87V
7.20nS
2.46V 1.74V 2.88V
7.40nS
2.48V 1.78V 2.89V
7.60nS
2.49V 1.82V 2.90V
7.80nS
2.50V 1.84V 2.91V
8.00nS
2.51V 1.86V 2.91V
8.20nS
2.52V 1.88V 2.92V
8.40nS
2.52V 1.90V 2.92V
8.60nS
2.53V 1.92V 2.93V
8.80nS
2.54V 1.93V 2.93V
9.00nS .54V
1.95V
2.93V
9.20nS 2.55V
1.96V
2.94V
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
86
DSP56371 Technical Data
MOTOROLA
9.40nS
2.55V 1.97V 2.94V
9.60nS
2.56V 1.99V 2.94V
9.80nS
2.56V 2.00V 2.95V
10.00nS
2.57V 2.00V 2.95V
|
[Rising Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
L_fixture = 0.000H
C_fixture = 0.000F
| time
V(typ)
V(min)
V(max)
|
0.000S
0.76V 1.03V 0.72V
0.20nS
0.76V 1.03V 0.72V
0.40nS
0.76V 1.03V 0.72V
0.60nS
0.76V 1.03V 0.72V
0.80nS
0.77V 1.03V 0.73V
1.00nS
0.81V 1.03V 0.82V
1.20nS
0.90V 1.03V 0.93V
1.40nS
0.98V 1.04V 1.02V
1.60nS
1.10V 1.11V 1.13V
1.80nS
1.22V 1.21V 1.26V
2.00nS
1.36V 1.33V 1.42V
2.20nS
1.53V 1.46V 1.58V
2.40nS
1.72V 1.60V 1.80V
2.60nS
1.93V 1.75V 2.04V
2.80nS
2.23V 1.97V 2.36V
3.00nS
2.48V 2.16V 2.62V
3.20nS
2.66V 2.30V 2.82V
3.40nS
2.85V 2.49V 3.04V
3.60nS
2.97V 2.63V 3.19V
3.80nS
3.09V 2.73V 3.29V
4.00nS
3.14V 2.83V 3.36V
4.20nS
3.19V 2.89V 3.42V
4.40nS
3.23V 2.94V 3.47V
4.60nS
3.25V 2.96V 3.50V
4.80nS
3.27V 2.97V 3.52V
5.00nS
3.28V 2.98V 3.54V
5.20nS .29V
2.99V
3.56V
5.40nS
3.29V 2.99V 3.57V
5.60nS
3.30V 3.00V 3.58V
5.80nS
3.30V 3.00V
3.59V
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
MOTOROLA
DSP56371 Technical Data
87
6.00nS
3.30V 3.00V 3.59V
6.20nS
3.30V 3.00V 3.60V
6.40nS
3.30V 3.00V 3.60V
6.60nS
3.30V 3.00V 3.60V
6.80nS
3.30V 3.00V 3.60V
7.00nS
3.30V 3.00V 3.60V
7.20nS
3.30V 3.00V 3.60V
7.40nS
3.30V 3.00V 3.60V
7.60nS
3.30V 3.00V 3.60V
7.80nS
3.30V 3.00V 3.60V
8.00nS
3.30V 3.00V 3.60V
8.20nS
3.30V 3.00V 3.60V
8.40nS
3.30V 3.00V 3.60V
8.60nS
3.30V 3.00V 3.60V
8.80nS
3.30V 3.00V 3.60V
9.00nS
3.30V 3.00V 3.60V
9.20nS
3.30V 3.00V 3.60V
9.40nS
3.30V 3.00V 3.60V
9.60nS
3.30V 3.00V 3.60V
9.80nS
3.30V 3.00V 3.60V
10.00nS
3.30V 3.00V 3.60V
|
[Falling Waveform]
R_fixture = 50.00
V_fixture = 0.000
V_fixture_min = 0.000
V_fixture_max = 0.000
L_fixture = 0.000H
C_fixture = 0.000F
| time
V(typ)
V(min)
V(max)
|
0.000S
2.62V 2.12V 2.99V
0.20nS
2.62V 2.12V 2.99V
0.40nS
2.62V 2.12V 2.99V
0.60nS
2.62V 2.12V 2.96V
0.80nS
2.60V 2.12V 2.85V
1.00nS
2.50V 2.12V 2.72V
1.20nS
2.37V 2.11V 2.59V
1.40nS
2.29V 2.09V 2.50V
1.60nS
2.17V 2.04V 2.36V
1.80nS
2.04V 1.96V 2.20V
2.00nS
1.89V 1.85V 2.00V
2.20nS
1.71V 1.74V 1.75V
2.40nS
1.50V 1.63V 1.48V
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
88
DSP56371 Technical Data
MOTOROLA
2.60nS
1.28V 1.50V 1.24V
2.80nS
1.01V 1.33V 1.01V
3.00nS
0.82V 1.17V 0.82V
3.20nS
0.72V 1.04V 0.75V
3.40nS
0.61V 0.87V 0.65V
3.60nS
0.51V 0.72V 0.57V
3.80nS
0.44V 0.60V 0.50V
4.00nS
0.38V 0.49V 0.44V
4.20nS
0.32V 0.40V 0.38V
4.40nS
0.26V 0.32V 0.32V
4.60nS
0.23V 0.28V 0.29V
4.80nS
0.21V 0.25V 0.26V
5.00nS
0.17V 0.21V 0.23V
5.20nS
0.15V 0.18V 0.20V
5.40nS
0.12V 0.14V 0.17V
5.60nS 93.14mV 0.11V
0.14V
5.80nS 80.86mV 94.78mV 0.12V
6.00nS 68.57mV 80.67mV 0.11V
6.20nS 55.24mV 65.96mV 90.13mV
6.40nS 43.92mV 51.39mV 74.96mV
6.60nS 33.33mV 40.71mV 61.03mV
6.80nS 25.91mV 31.19mV 50.31mV
7.00nS 18.81mV 22.83mV 39.65mV
7.20nS 13.52mV 17.13mV 31.61mV
7.40nS 8.40mV 10.61mV 22.62mV
7.60nS 4.73mV 6.73mV 15.75mV
7.80nS 3.46mV 4.67mV 12.43mV
8.00nS 2.19mV 3.16mV 9.14mV
8.20nS 1.26mV 2.23mV 6.37mV
8.40nS 0.84mV 1.32mV 4.12mV
8.60nS 0.49mV 0.95mV 2.29mV
8.80nS 0.41mV 0.74mV 1.55mV
9.00nS 0.35mV 0.58mV 0.81mV
9.20nS 0.31mV 0.51mV 0.53mV
9.40nS 0.28mV 0.45mV 0.39mV
9.60nS 0.24mV 0.40mV 0.27mV
9.80nS 0.22mV 0.36mV 0.24mV
10.00nS
0.20mV 0.32mV 0.21mV
|
[Falling Waveform]
R_fixture = 50.00
V_fixture = 3.30
V_fixture_min = 3.00
V_fixture_max = 3.60
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
MOTOROLA
DSP56371 Technical Data
89
L_fixture = 0.000H
C_fixture = 0.000F
| time
V(typ)
V(min)
V(max)
|
0.000S
3.30V 3.00V 3.60V
0.20nS
3.30V 3.00V 3.60V
0.40nS
3.30V 3.00V 3.60V
0.60nS
3.30V 3.00V 3.59V
0.80nS
3.30V 3.00V 3.52V
1.00nS
3.25V 3.00V 3.44V
1.20nS
3.18V 3.00V 3.37V
1.40nS
3.14V 3.00V 3.32V
1.60nS
3.09V 3.00V 3.24V
1.80nS
3.03V 2.97V 3.16V
2.00nS
2.96V 2.92V 3.07V
2.20nS
2.88V 2.88V 2.98V
2.40nS
2.80V 2.84V 2.88V
2.60nS
2.72V 2.80V 2.77V
2.80nS
2.60V 2.74V 2.64V
3.00nS
2.51V 2.68V 2.54V
3.20nS
2.44V 2.64V 2.46V
3.40nS
2.34V 2.58V 2.34V
3.60nS
2.25V 2.52V 2.22V
3.80nS
2.15V 2.46V 2.08V
4.00nS
2.05V 2.39V 1.92V
4.20nS
1.93V 2.32V 1.74V
4.40nS
1.81V 2.24V 1.58V
4.60nS
1.73V 2.19V 1.50V
4.80nS
1.65V 2.15V 1.42V
5.00nS
1.53V 2.09V 1.34V
5.20nS
1.43V 2.04V 1.26V
5.40nS
1.32V 1.97V 1.18V
5.60nS
1.22V 1.91V 1.11V
5.80nS
1.18V 1.87V 1.07V
6.00nS
1.13V 1.84V 1.03V
6.20nS
1.08V 1.79V 0.99V
6.40nS
1.03V 1.75V 0.95V
6.60nS
0.99V 1.70V 0.92V
6.80nS
0.96V 1.66V 0.89V
7.00nS
0.93V 1.63V 0.87V
7.20nS
0.90V 1.59V 0.84V
7.40nS
0.87V 1.53V 0.82V
7.60nS
0.84V 1.47V 0.80V
7.80nS
0.83V 1.44V 0.78V
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
90
DSP56371 Technical Data
MOTOROLA
8.00nS
0.82V 1.40V 0.78V
8.20nS
0.81V 1.35V 0.76V
8.40nS
0.80V 1.30V 0.75V
8.60nS
0.79V 1.26V 0.75V
8.80nS
0.78V 1.23V 0.74V
9.00nS
0.78V 1.19V 0.73V
9.20nS
0.78V 1.17V 0.73V
9.40nS
0.77V 1.14V 0.73V
9.60nS
0.77V 1.12V 0.72V
9.80nS
0.77V 1.10V 0.72V
10.00nS
0.77V 1.08V 0.72V
|
| End [Model] prt24dgz
|
|************************************************************************
| Model pdusdgz
|************************************************************************
|
[Model] pdusdgz
Model_type Input
Polarity Non-Inverting
Vinl = 0.000V
Vinh = 3.30V
C_comp
5.00pF 5.00pF 5.00pF
|
|
[Temperature Range]
25.00
0.12k
0.000
[Pullup
Reference] 3.30V 3.00V 3.60V
[Pulldown
Reference]
0.000V 0.000V 0.000V
[POWER Clamp Reference] 5.00V
4.50V
5.50V
[GND Clamp Reference]
0.000V
0.000V
0.000V
[GND_clamp]
| voltage I(typ)
I(min)
I(max)
|
-5.00 -64.63A -59.13A -66.41A
-4.80 -61.55A -56.41A -63.21A
-4.60 -58.47A -53.69A -60.01A
-4.40 -55.39A -50.97A -56.81A
-4.20 -52.31A -48.25A -53.61A
-4.00 -49.23A -45.53A -50.41A
-3.80 -46.15A -42.81A -47.21A
-3.60 -43.07A -40.09A -44.01A
-3.40 -39.99A -37.37A -40.81A
-3.20 -36.91A -34.65A -37.61A
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Freescale Semiconductor, Inc.
For More Information On This Product,
Go to: www.freescale.com
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IBIS Model
MOTOROLA
DSP56371 Technical Data
91
-3.00 -33.82A -31.94A -34.41A
-2.80 -30.73A -29.22A -31.22A
-2.60 -27.64A -26.51A -28.02A
-2.40 -24.56A -23.79A -24.82A
-2.20 -21.47A -21.08A -21.62A
-2.00 -18.38A -18.36A -18.42A
-1.80 -15.29A -15.64A -15.22A
-1.60 -12.20A -12.93A -12.03A
-1.40 -9.12A -10.21A -8.83A
-1.20 -6.03A -7.50A -5.63A
-1.00 -2.94A -4.78A -2.43A
-0.80 -0.20A -2.07A -64.17mA
-0.60 -1.85mA
-96.40mA
-4.85mA
-0.40 -83.24uA
-0.50mA
-0.23mA
-0.20 -60.52uA -36.82uA -86.29uA
-0.00 -60.40uA -35.33uA -85.95uA
0.20
-60.32uA -35.27uA -85.85uA
0.40
-60.23uA -35.20uA -85.73uA
0.60
-60.11uA -35.13uA -85.57uA
0.80
-59.96uA -35.03uA -85.37uA
1.00
-59.74uA -34.91uA -85.08uA
1.20
-59.32uA -34.50uA -84.56uA
1.40
-58.35uA -33.59uA -83.44uA
1.60
-56.47uA -31.92uA -81.36uA
1.80
-53.57uA -29.25uA -78.20uA
2.00 -49.55uA
-7.60uA
-73.89uA
2.20
-43.70uA -16.78nA -68.43uA
2.40 -3.73uA
0.10uA -61.70uA
2.60 0.10uA 0.11uA -51.99uA
2.80 0.12uA 0.12uA -2.43uA
3.00 0.13uA 0.13uA 0.13uA
3.20 0.14uA 0.20uA 0.14uA
3.40 0.15uA 0.15uA 0.15uA
3.60 0.16uA 96.30nA
0.16uA
3.80 0.17uA 43.50nA
0.17uA
4.00 0.18uA -9.30nA
0.18uA
4.20 0.18uA 62.10nA
0.19uA
4.40 0.19uA -0.11uA
0.20uA
4.60 0.20uA -0.17uA
0.21uA
4.80 0.21uA -0.22uA
0.22uA
5.00 0.22uA -0.27uA
0.23uA
|
[POWER_clamp]
| voltage I(typ)
I(min)
I(max)
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IBIS Model
92
DSP56371 Technical Data
MOTOROLA
|
-5.00 0.61uA 0.59uA 0.65uA
-4.90 0.60uA 0.58uA 0.65uA
-4.80 0.59uA 0.58uA 0.64uA
-4.70 0.59uA 0.57uA 0.63uA
-4.60 0.58uA 0.56uA 0.63uA
-4.50 0.57uA 0.56uA 0.62uA
-4.40 0.56uA 0.55uA 0.61uA
-4.30 0.56uA 0.54uA 0.60uA
-4.20 0.55uA 0.54uA 0.60uA
-4.10 0.54uA 0.53uA 0.59uA
-4.00 0.54uA 0.52uA 0.58uA
-3.90 0.53uA 0.52uA 0.58uA
-3.80 0.52uA 0.51uA 0.57uA
-3.70 0.52uA 0.50uA 0.56uA
-3.60 0.51uA 0.50uA 0.56uA
-3.50 0.50uA 0.49uA 0.55uA
-3.40 0.50uA 0.48uA 0.54uA
-3.30 0.49uA 0.48uA 0.53uA
-3.20 0.48uA 0.47uA 0.53uA
-3.10 0.48uA 0.46uA 0.52uA
-3.00 0.47uA 0.46uA 0.51uA
-2.90 0.46uA 0.45uA 0.51uA
-2.80 0.46uA 0.44uA 0.50uA
-2.70 0.45uA 0.44uA 0.49uA
-2.60 0.44uA 0.43uA 0.49uA
-2.50 0.44uA 0.42uA 0.48uA
-2.40 0.43uA 0.41uA 0.47uA
-2.30 0.42uA 0.41uA 0.46uA
-2.20 0.42uA 0.40uA 0.46uA
-2.10 0.41uA 0.39uA 0.45uA
-2.00 0.40uA 0.39uA 0.44uA
-1.90 0.39uA 0.38uA 0.44uA
-1.80 0.39uA 0.37uA 0.43uA
-1.70 0.38uA 0.37uA 0.42uA
-1.60 0.37uA 0.36uA 0.42uA
-1.50 0.37uA 0.35uA 0.41uA
-1.40 0.36uA 0.35uA 0.40uA
-1.30 0.35uA 0.34uA 0.39uA
-1.20 0.35uA 0.33uA 0.39uA
-1.10 0.34uA 0.33uA 0.38uA
-1.00 0.33uA 0.32uA 0.37uA
-0.90 0.33uA 0.31uA 0.37uA
-0.80 0.32uA 0.31uA 0.36uA
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Freescale Semiconductor, Inc.
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IBIS Model
MOTOROLA
DSP56371 Technical Data
93
-0.70 0.31uA 0.30uA
0.35uA
-0.60 0.31uA 0.29uA 0.35uA
-0.50 0.30uA 0.29uA 0.34uA
-0.40 0.29uA 0.28uA 0.33uA
-0.30 0.29uA 0.27uA 0.32uA
-0.20 0.28uA 0.27uA 0.32uA
-0.10 0.27uA 0.26uA 0.31uA
0.00 0.27uA 0.25uA 0.30uA
|
| End [Model] pdusdgz
|
|************************************************************************
| Model pdddgz
|************************************************************************
|
[Model] pdddgz
Model_type Input
Polarity Non-Inverting
Vinl = 0.000V
Vinh = 3.30V
C_comp
5.00pF 5.00pF 5.00pF
|
|
[Temperature Range]
25.00
0.12k
0.000
[Pullup
Reference] 3.30V 3.00V 3.60V
[Pulldown
Reference]
0.000V 0.000V 0.000V
[POWER Clamp Reference] 5.00V
4.50V
5.50V
[GND Clamp Reference] \
0.000V
0.000V
0.000V
[GND_clamp]
| voltage
I(typ)
I(min) I(max)
|
-5.00 -64.63A -59.13A -66.41A
-4.80 -61.55A -56.41A -63.21A
-4.60 -58.47A -53.69A -60.01A
-4.40 -55.39A -50.97A -56.81A
-4.20 -52.31A -48.25A -53.61A
-4.00 -49.23A -45.53A -50.41A
-3.80 -46.15A -42.81A -47.21A
-3.60 -43.07A -40.09A -44.01A
-3.40 -39.99A -37.37A -40.81A
-3.20 -36.91A -34.65A -37.61A
-3.00 -33.82A -31.94A -34.41A
-2.80 -30.73A -29.22A -31.22A
-2.60 -27.64A -26.51A -28.02A
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
94
DSP56371 Technical Data
MOTOROLA
-2.40 -24.56A -23.79A -24.82A
-2.20 -21.47A -21.08A -21.62A
-2.00 -18.38A -18.36A -18.42A
-1.80 -15.29A -15.64A -15.22A
-1.60 -12.20A -12.93A -12.03A
-1.40 -9.12A -10.21A -8.83A
-1.20 -6.03A -7.50A -5.63A
-1.00 -2.94A -4.78A -2.43A
-0.80 -0.20A -2.07A -64.21mA
-0.60 -1.89mA
-96.41mA
-4.91mA
-0.40 -85.69uA
-0.50mA
-0.24mA
-0.20 -27.91uA -14.61uA -42.88uA
-0.00 -87.50nA -88.83nA -0.10uA
0.20 18.71uA
7.31uA 32.27uA
0.40 29.18uA 10.24uA 54.12uA
0.60 32.49uA 10.66uA 65.78uA
0.80 33.06uA 10.78uA 69.33uA
1.00 33.29uA 10.85uA 70.16uA
1.20 33.44uA 10.91uA 70.54uA
1.40 33.56uA 10.96uA 70.78uA
1.60 33.66uA 11.01uA 70.98uA
1.80 33.76uA 11.06uA 71.15uA
2.00 33.85uA 11.10uA 71.30uA
2.20 33.94uA 11.12uA 71.44uA
2.40 33.99uA 11.13uA 71.59uA
2.60 34.01uA 11.14uA 71.74uA
2.80 34.02uA 11.15uA 71.82uA
3.00 34.03uA 11.16uA 71.84uA
3.20 34.04uA 11.25uA 71.85uA
3.40 34.06uA 11.17uA 71.87uA
3.60 34.08uA 11.09uA 71.89uA
3.80 34.10uA 11.01uA 71.91uA
4.00 34.12uA 10.93uA 71.93uA
4.20 34.14uA 10.85uA 71.95uA
4.40 34.16uA 10.77uA 71.97uA
4.60 34.18uA 10.69uA 71.99uA
4.80 34.20uA 10.61uA 72.01uA
5.00 34.22uA 10.53uA 72.03uA
|
[POWER_clamp]
| voltage
I(typ)
I(min)
I(max)
|
-5.00 48.19uA 16.29uA 95.53uA
-4.90 47.87uA 16.17uA 95.03uA
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For More Information On This Product,
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IBIS Model
MOTOROLA
DSP56371 Technical Data
95
-4.80
47.55uA 16.05uA 94.53uA
-4.70
47.23uA 15.93uA 94.03uA
-4.60
46.91uA 15.81uA 93.53uA
-4.50
46.59uA 15.69uA 93.03uA
-4.40
46.27uA 15.57uA 92.53uA
-4.30
45.95uA 15.45uA 92.03uA
-4.20
45.63uA 15.33uA 91.53uA
-4.10
45.31uA 15.21uA 91.03uA
-4.00
44.99uA 15.09uA 90.53uA
-3.90
44.67uA 14.97uA 90.03uA
-3.80
44.35uA 14.85uA 89.53uA
-3.70
44.03uA 14.73uA 89.03uA
-3.60
43.71uA 14.61uA 88.53uA
-3.50
43.39uA 14.49uA 88.03uA
-3.40
43.07uA 14.37uA 87.53uA
-3.30
42.75uA 14.25uA 87.03uA
-3.20
42.43uA 14.13uA 86.53uA
-3.10
42.11uA 14.01uA 86.03uA
-3.00
41.79uA 13.89uA 85.53uA
-2.90
41.47uA 13.77uA 85.03uA
-2.80
41.15uA 13.65uA 84.53uA
-2.70
40.83uA 13.53uA 84.03uA
-2.60
40.51uA 13.41uA 83.53uA
-2.50
40.19uA 13.29uA 83.03uA
-2.40
39.87uA 13.17uA 82.53uA
-2.30
39.55uA 13.05uA 82.03uA
-2.20
39.23uA 12.93uA 81.53uA
-2.10
38.91uA 12.81uA 81.03uA
-2.00
38.59uA 12.69uA 80.53uA
-1.90
38.27uA 12.57uA 80.03uA
-1.80
37.95uA 12.45uA 79.53uA
-1.70
37.63uA 12.33uA 79.03uA
-1.60
37.31uA 12.22uA 78.53uA
-1.50
36.99uA 12.11uA 78.03uA
-1.40
36.68uA 12.01uA 77.53uA
-1.30
36.38uA 11.92uA 77.03uA
-1.20
36.11uA 11.84uA 76.53uA
-1.10
35.86uA 11.76uA 76.03uA
-1.00
35.63uA 11.69uA 75.53uA
-0.90
35.41uA 11.63uA 75.06uA
-0.80
35.22uA 11.57uA 74.63uA
-0.70
35.05uA 11.52uA 74.24uA
-0.60
34.90uA 11.48uA 73.89uA
-0.50
34.77uA 11.44uA 73.58uA
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-0.40 34.65uA
11.41uA
73.30uA
-0.30 34.55uA
11.38uA
73.06uA
-0.20 34.47uA
11.35uA
72.86uA
-0.10 34.40uA
11.33uA
72.68uA
0.00 34.34uA
11.31uA
72.54uA
|
| End [Model] pdddgz
|
|************************************************************************
| Model pdudgz
|************************************************************************
|
[Model] pdudgz
Model_type Input
Polarity Non-Inverting
Vinl = 0.000V
Vinh = 3.30V
C_comp 5.00pF 5.00pF 5.00pF
|
|
[Temperature Range] 25.00 0.12k 0.000
[Pullup Reference] 3.30V 3.00V 3.60V
[Pulldown Reference] 0.000V 0.000V 0.000V
[POWER Clamp Reference] 5.00V 4.50V 5.50V
[GND Clamp Reference] 0.000V 0.000V 0.000V
[GND_clamp]
| voltage I(typ)
I(min)
I(max)
|
-5.00
-64.63A -59.13A -66.41A
-4.80
-61.55A -56.41A -63.21A
-4.60
-58.47A -53.69A -60.01A
-4.40
-55.39A -50.97A -56.81A
-4.20
-52.31A -48.25A -53.61A
-4.00
-49.23A -45.53A -50.41A
-3.80
-46.15A -42.81A -47.21A
-3.60
-43.07A -40.09A -44.01A
-3.40
-39.99A -37.37A -40.81A
-3.20
-36.91A -34.65A -37.61A
-3.00
-33.82A -31.94A -34.41A
-2.80
-30.73A -29.22A -31.22A
-2.60
-27.64A -26.51A -28.02A
-2.40
-24.56A -23.79A -24.82A
-2.20
-21.47A -21.08A -21.62A
-2.00
-18.38A -18.36A -18.42A
-1.80 -15.29A -15.64A -15.22A
-1.60 -12.20A -12.93A -12.03A
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IBIS Model
MOTOROLA
DSP56371 Technical Data
97
-1.40 -9.12A -10.21A -8.83A
-1.20 -6.03A -7.50A -5.63A
-1.00 -2.94A -4.78A -2.43A
-0.80 -0.20A -2.07A -64.17mA
-0.60 -1.85mA
-96.40mA
-4.85mA
-0.40 -83.24uA
-0.50mA
-0.23mA
-0.20 -60.52uA -36.82uA -86.29uA
-0.00 -60.40uA -35.33uA -85.95uA
0.20
-60.32uA -35.27uA -85.85uA
0.40
-60.23uA -35.20uA -85.73uA
0.60
-60.11uA -35.13uA -85.57uA
0.80
-59.96uA -35.03uA -85.37uA
1.00 -59.74uA
-34.87uA
-85.08uA
1.20
-59.32uA -34.50uA -84.56uA
1.40
-58.35uA -33.59uA -83.44uA
1.60
-56.47uA -31.92uA -81.36uA
1.80
-53.57uA -29.25uA -78.20uA
2.00 -49.55uA
-7.60uA
-73.89uA
2.20
-43.70uA -16.78nA -68.43uA
2.40 -3.73uA
0.10uA 61.70uA
2.60 0.10uA 0.11uA 51.99uA
2.80 0.12uA 0.12uA -2.43uA
3.00 0.13uA 0.13uA 0.13uA
3.20 0.14uA 0.20uA 0.14uA
3.40 0.15uA 0.15uA 0.15uA
3.60 0.16uA 96.30nA
0.16uA
3.80 0.17uA 43.50nA
0.17uA
4.00 0.18uA -9.30nA
0.18uA
4.20 0.18uA 62.10nA
0.19uA
4.40 0.19uA -0.11uA
0.20uA
4.60 0.20uA -0.17uA
0.21uA
4.80 0.21uA -0.22uA
0.22uA
5.00 0.22uA -0.27uA
0.23uA
|
[POWER_clamp]
| voltage I(typ) I(min) I(max)
|
-5.00 0.61uA 0.59uA 0.65uA
-4.90 0.60uA 0.58uA 0.65uA
-4.80 0.59uA 0.58uA 0.64uA
-4.70 0.59uA 0.57uA 0.63uA
-4.60 0.58uA 0.56uA 0.63uA
-4.50 0.57uA 0.56uA 0.62uA
-4.40 0.56uA 0.55uA 0.61uA
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IBIS Model
98
DSP56371 Technical Data
MOTOROLA
-4.30 0.56uA 0.54uA 0.60uA
-4.20 0.55uA 0.54uA 0.60uA
-4.10 0.54uA 0.53uA 0.59uA
-4.00 0.54uA 0.52uA 0.58uA
-3.90 0.53uA 0.52uA 0.58uA
-3.80 0.52uA 0.51uA 0.57uA
-3.70 0.52uA 0.50uA 0.56uA
-3.60 0.51uA 0.50uA 0.56uA
-3.50 0.50uA 0.49uA 0.55uA
-3.40 0.50uA 0.48uA 0.54uA
-3.30 0.49uA 0.48uA 0.53uA
-3.20 0.48uA 0.47uA 0.53uA
-3.10 0.48uA 0.46uA 0.52uA
-3.00 0.47uA 0.46uA 0.51uA
-2.90 0.46uA 0.45uA 0.51uA
-2.80 0.46uA 0.44uA 0.50uA
-2.70 0.45uA 0.44uA 0.49uA
-2.60 0.44uA 0.43uA 0.49uA
-2.50 0.44uA 0.42uA 0.48uA
-2.40 0.43uA 0.41uA 0.47uA
-2.30 0.42uA 0.41uA 0.46uA
-2.20 0.42uA 0.40uA 0.46uA
-2.10 0.41uA 0.39uA 0.45uA
-2.00 0.40uA 0.39uA 0.44uA
-1.90 0.39uA 0.38uA 0.44uA
-1.80 0.39uA 0.37uA 0.43uA
-1.70 0.38uA 0.37uA 0.42uA
-1.60 0.37uA 0.36uA 0.42uA
-1.50 0.37uA 0.35uA 0.41uA
-1.40 0.36uA 0.35uA 0.40uA
-1.30 0.35uA 0.34uA 0.39uA
-1.20 0.35uA 0.33uA 0.39uA
-1.10 0.34uA 0.33uA 0.38uA
-1.00 0.33uA 0.32uA 0.37uA
-0.90 0.33uA 0.31uA 0.37uA
-0.80 0.32uA 0.31uA 0.36uA
-0.70 0.31uA 0.30uA 0.35uA
-0.60 0.31uA 0.29uA 0.35uA
-0.50 0.30uA 0.29uA 0.34uA
-0.40 0.29uA 0.28uA 0.33uA
-0.30 0.29uA 0.27uA 0.32uA
-0.20 0.28uA 0.27uA 0.32uA
-0.10 0.27uA 0.26uA 0.31uA
0.00 0.27uA 0.25uA 0.30uA
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IBIS Model
MOTOROLA
DSP56371 Technical Data
99
|
| End [Model] pdudgz
|
|************************************************************************
| Model pdidgz
|************************************************************************
|
[Model] pdidgz
Model_type Input
Polarity Non-Inverting
Vinl = 0.000V
Vinh = 3.30V
C_comp
5.00pF 5.00pF 5.00pF
|
|
[Temperature Range]
25.00
0.12k
0.000
[Pullup Reference]
3.30V
3.00V
3.60V
[Pulldown
Reference]
0.000V 0.000V 0.000V
[POWER Clamp Reference] 5.00V
4.50V
5.50V
[GND Clamp Reference]
0.000V
0.000V
0.000V
[GND_clamp]
| voltage I(typ)
I(min)
I(max)
|
-5.00 -64.63A -59.13A -66.41A
-4.80
-61.55A
-56.41A -63.21A
-4.60
-58.47A
-53.69A -60.01A
-4.40
-55.39A
-50.97A -56.81A
-4.20
-52.31A
-48.25A -53.61A
-4.00 -49.23A -45.53A -50.41A
-3.80 -46.15A -42.81A -47.21A
-3.60
-43.07A
-40.09A
-44.01A
-3.40
-39.99A
-37.37A
-40.81A
-3.20
-36.91A
-34.65A
-37.61A
-3.00
-33.82A
-31.94A
-34.41A
-2.80
-30.73A
-29.22A
-31.22A
-2.60 -27.64A -26.51A -28.02A
-2.40
-24.56A
-23.79A
-24.82A
-2.20
-21.47A
-21.08A
-21.62A
-2.00
-18.38A
-18.36A
-18.42A
-1.80
-15.29A
-15.64A
-15.22A
-1.60
-12.20A
-12.93A
-12.03A
-1.40
-9.12A
-10.21A
-8.83A
-1.20
-6.03A
-7.50A
-5.63A
-1.00 -2.94A -4.78A -2.43A
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
100
DSP56371 Technical Data
MOTOROLA
-0.80 -0.20A -2.07A -64.14mA
-0.60
-1.79mA
-96.39mA
-4.77mA
-0.40
-22.83uA
-0.47mA
-0.14mA
-0.20
-0.15uA
-1.56uA -0.37uA
-0.00 -88.71nA -89.34nA -0.11uA
0.20
-72.38nA
-68.50nA
-88.30nA
0.40
-56.11nA
-52.12nA
-71.55nA
0.60
-39.84nA
-35.76nA
-54.82nA
0.80
-23.57nA
-19.40nA
-38.12nA
1.00
-7.31nA
-3.04nA
-21.42nA
1.20
8.94nA
13.32nA
-4.73nA
1.40
25.19nA
29.68nA
11.97nA
1.60
41.42nA
46.03nA
28.68nA
1.80
57.64nA
62.39nA
45.42nA
2.00
73.83nA
78.74nA
62.20nA
2.20
89.95nA
94.86nA
79.06nA
2.40
0.11uA
0.11uA
96.02nA
2.60
0.12uA
0.12uA
0.11uA
2.80
0.13uA
0.13uA
0.13uA
3.00
0.14uA
0.14uA
0.14uA
3.20
0.15uA
0.21uA
0.15uA
3.40
0.15uA
0.15uA
0.16uA
3.60
0.16uA
0.10uA
0.17uA
3.80
0.17uA
47.20nA
0.18uA
4.00
0.18uA
-5.80nA
0.18uA
4.20
0.20uA
-0.11uA
0.20uA
4.60
0.20uA
-0.16uA
0.21uA
4.80
0.21uA
-0.22uA
0.22uA
5.00
0.22uA
-0.27uA
0.23uA
|
[POWER_clamp]
| voltage I(typ) I(min) I(max)
|
-5.00 0.60uA 0.59uA 0.65uA
-4.90 0.60uA 0.58uA 0.64uA
-4.80 0.59uA 0.58uA 0.64uA
-4.70 0.58uA 0.57uA 0.63uA
-4.60 0.58uA 0.56uA 0.62uA
-4.50 0.57uA 0.56uA 0.62uA
-4.40 0.56uA 0.55uA 0.61uA
-4.30 0.56uA 0.54uA 0.60uA
-4.20 0.55uA 0.54uA 0.59uA
-4.10 0.54uA 0.53uA 0.59uA
-4.00 0.54uA 0.52uA 0.58uA
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Freescale Semiconductor, Inc.
For More Information On This Product,
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IBIS Model
MOTOROLA
DSP56371 Technical Data
101
-3.90 0.53uA 0.52uA 0.57uA
-3.80 0.52uA 0.51uA 0.57uA
-3.70 0.52uA 0.50uA 0.56uA
-3.60 0.51uA 0.50uA 0.55uA
-3.50 0.50uA 0.49uA 0.55uA
-3.40 0.49uA 0.48uA 0.54uA
-3.30 0.49uA 0.48uA 0.53uA
-3.20 0.48uA 0.47uA 0.53uA
-3.10 0.47uA 0.46uA 0.52uA
-3.00 0.47uA 0.46uA 0.51uA
-2.90 0.46uA 0.45uA 0.51uA
-2.80 0.45uA 0.44uA 0.50uA
-2.70 0.45uA 0.43uA 0.49uA
-2.60 0.44uA 0.43uA 0.48uA
-2.50 0.43uA 0.42uA 0.48uA
-2.40 0.43uA 0.41uA 0.47uA
-2.30 0.42uA 0.41uA 0.46uA
-2.20 0.41uA 0.40uA 0.46uA
-2.10 0.41uA 0.39uA 0.45uA
-2.00 0.40uA 0.39uA 0.44uA
-1.90 0.39uA 0.38uA 0.44uA
-1.80 0.39uA 0.37uA 0.43uA
-1.70 0.38uA 0.37uA 0.42uA
-1.60 0.37uA 0.36uA 0.42uA
-1.50 0.37uA 0.35uA 0.41uA
-1.40 0.36uA 0.35uA 0.40uA
-1.30 0.35uA 0.34uA 0.39uA
-1.20 0.35uA 0.33uA 0.39uA
-1.10 0.34uA 0.33uA 0.38uA
-1.00 0.33uA 0.32uA 0.37uA
-0.90 0.33uA 0.31uA 0.37uA
-0.80 0.32uA 0.31uA 0.36uA
-0.70 0.31uA 0.30uA 0.35uA
-0.60 0.31uA 0.29uA 0.35uA
-0.50 0.30uA 0.29uA 0.34uA
-0.40 0.29uA 0.28uA 0.33uA
-0.30 0.29uA 0.27uA 0.33uA
-0.20 0.28uA 0.27uA 0.32uA
-0.10 0.28uA 0.26uA 0.31uA
0.00 0.27uA 0.26uA 0.31uA
|
| End [Model] pdidgz
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HOW TO REACH US:
USA/EUROPE/LOCATIONS NOT LISTED:
Motorola Literature Distribution
P.O. Box 5405
Denver, Colorado 80217
1-800-521-6274 or 480-768-2130
JAPAN:
Motorola Japan Ltd.
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Tokyo 106-8573, Japan
81-3-3440-3569
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HOME PAGE:
http://motorola.com/semiconductors
DSP56371/D
Rev. 2
04/2004
Information in this document is provided solely to enable system and software implementers to use Motorola products.
There are no express or implied copyright licenses granted hereunder to design or fabricate any integrated circuits or
integrated circuits based on the information in this document.
Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty,
representation or guarantee regarding the suitability of its products for any particular purpose, nor does Motorola assume
any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability,
including without limitation consequential or incidental damages. "Typical" parameters that may be provided in Motorola
data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including "Typicals", must be validated for each customer application by customer's technical
experts. Motorola does not convey any license under its patent rights nor the rights of others. Motorola products are not
designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other
applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could
create a situation where personal injury or death may occur. Should Buyer purchase or use Motorola products for any such
unintended or unauthorized application, Buyer shall indemnify and hold Motorola and its officers, employees, subsidiaries,
affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising
out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even
if such claim alleges that Motorola was negligent regarding the design or manufacture of the part.
MOTOROLA and the Stylized M Logo are registered in the US Patent and Trademark Office. All other product or service
names are the property of their respective owners. Motorola, Inc. is an Equal Opportunity/Affirmative Action Employer.
Motorola Inc. 2004
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