Corporation
SIGNAL PROCESSING EXCELLENCE
175
DESCRIPTION...
The SP7545 is a lowcost, high stability 12bit CMOS multiplying DAC with onboard data
latches. The SP7545 is constructed using a proprietary lowTCR thinfilm process that
requires no lasertrimming to achieve 12bit performance. With no lasertrimming, inherent
high stability, and a segmented (decoded) DAC architecture, the SP7545 retains its
performance over time and temperature. The SP7545 is available for use in commercial and
industrial temperature ranges. It is available in 20pin plastic DIP and PLCC packages.
s
1.0 LSB Relative Accuracy Over
Temperature
s
Monotonic to 12Bits Over
Temperature
s
High Stability, Segmented Architecture
s
Proprietary, Low TCR ThinFilm
Resistor Technology
s
Operates With +5V to +15V Power
Supplies
s
On-Board, LevelTriggered Latches
s
2kVESD Protection on all Digital
Inputs
D
11
(MSB) [4]
D
10
[5]
D
9
[6]
D
8
[7]
D
7
[8]
D
6
[9]
D
5
[10]
D
4
[11]
D
3
[12]
D
2
[13]
D
1
[14]
D
0
(LSB) [15]
12BIT
DAC
REGISTER
V
REF
[19]
R
FB
[20]
I
O1
[1]
AGND [2]
12BIT
DAC
V
DD
[18]
GND [3]
Corporation
SIGNAL PROCESSING EXCELLENCE
SP7545
12Bit, Buffered Multiplying DAC
Corporation
SIGNAL PROCESSING EXCELLENCE
176
ABSOLUTE MAXIMUM RATINGS
(T
A
= 25
C unless otherwise noted.)
These are stress ratings only and functional operation of the device
at these or any other above those indicated in the operation
sections of the specifications below is not implied. Exposure to
absolute maximum rating conditions for extended periods of time
may affect reliability.
V
DD
to GND .................................................................. 0.3V, +17V
Digital Input Voltage to GND ................................. 0.3V, V
DD
+0.3V
V
REF
or V
RFB
to GND ................................................................
25V
Output Voltage (Pin 1, Pin 2) ................................ 0.3V, V
DD
+0.3V
Power Dissipation (Any Package to +75
C) ........................ 450mW
Derates above 75
C by ...................................................... 6mW/
C
Dice Junction Temperature ................................................. +150
C
Storage Temperature ............................................ 65
C to +150
C
Lead Temperature (Soldering, 60 seconds) ........................ +300
C
SPECIFICATIONS
(T
A
=25
C; V
DD
=+5V or +15V as noted; V
REF
= +10V; I
O1
= AGND = GND = 0V; unipolar unless otherwise noted.)
PARAMETER
MIN.
TYP.
MAX.
UNIT
CONDITIONS
STATIC PERFORMANCE
Resolution
12
Bits
Integral Non-Linearity
Note 6
J
2.0
LSB
Note 5; 11-bit relative accuracy
K
1.0
LSB
Note 5; 12-bit relative accuracy
Differential Non-Linearity
Note 7
J
4.0
LSB
Note 5; monotonic to 12-bits
K
1.0
LSB
Note 5; monotonic to 12-bits
Gain Error
Note 16
J
20
LSB
V
DD
= +5V; Note 5
25
LSB
V
DD
= +15V
K
10
LSB
V
DD
= +5V
15
LSB
V
DD
= +15V
Output Leakage Current
10
nA
At I
O1
(Pin 1); Note 5 and 17
AC PERFORMANCE CHARACTERISTICS
Output Amplifier HOS-050;
Note 10
Propagation Delay
300
ns
V
DD
= +5V; Note 11
250
ns
V
DD
= +15V; Note 11
Current Settling Time
2.0
s
Full scale transition; Note 12
Output Capacitance
50
200
pF
WR, CS = 0V; data inputs V
DD
200
pF
Note 5; data inputs V
DD
25
70
pF
Data inputs 0V
70
pF
Note 5; data inputs 0V
Glitch Energy
250
nV-s
Note 13
Multiplying Feedthrough Error
2.0
mV
P-P
Measured at output I
O1
; Note 14
0.2
mV
P-P
Measured at output I
O1
; Note 15
STABILITY
Gain Error TC
1.0
2.0
ppm/
C
2.0
ppm/
C
Note 5
Integral Non-Linearity TC
0.1
1.0
ppm/
C
1.0
ppm/
C
Note 5
Differential Non-Linearity TC
0.1
1.0
ppm/
C
1.0
ppm/
C
Note 5
Power Supply Rejection
0.002
0.01
%/%
%/0.005% change in power
supply voltage
0.02
%/%
Note 5
REFERENCE INPUT
Input Resistance
7
10
15
K
Pin 19 to GND
Input Resistance TC
150
ppm/
C
Voltage Range
25
Volts
Note 5 and 8
Corporation
SIGNAL PROCESSING EXCELLENCE
177
SPECIFICATIONS (continued)
(T
A
=25
C; V
DD
=+5V, V
REF
= +10V; I
O1
= AGND = GND = 0V; unipolar unless otherwise noted.)
PARAMETER
MIN.
TYP.
MAX.
UNIT
CONDITIONS
DIGITAL INPUTS
Logic Levels
V
IH
2.4
V
DD
Volts
V
DD
= +5V
2.4
Volts
V
DD
= +5V; Note 5
13.5
V
DD
Volts
V
DD
= +15V
13.5
Volts
V
DD
= +15V; Note 5
V
IL
-0.3
0.8
Volts
V
DD
= +5V
0.8
Volts
V
DD
= +5V; Note 5
-0.3
1.5
Volts
V
DD
= +15V
1.5
Volts
V
DD
= +15V; Note 5
Input Current
1.0
A
V
IN
= 0V or V
DD
10
A
Note 5 and 9
Input Capacitance
V
IN
= 0; Note 5 and 8
Bits 1--12
5
pF
WR, CS
20
pF
Coding
Unipolar
Binary
Bipolar
Offset Binary
POWER REQUIREMENTS
Supply Current
2.0
mA
All digital inputs V
IL
or V
IH
2.0
mA
Note 5; all digital inputs
V
IL
or V
IH
0.5
mA
Note 18
mA
Note 5 and 18
ENVIRONMENTAL AND MECHANICAL
Operating Temperature
Commercial
0
+70
C
Industrial
-40
+85
C
Storage Temperature
-65
+150
C
Package
20pin Plastic DIP
20pin Plastic LCC
Notes and Cautions:
1.
Do not apply voltages higher than V
DD
or less than GND potential on any terminal other than V
REF
or V
RFB
.
2.
The digital inputs are diode-clamp protected against ESD damage. However, permanent damage may
occur on unprotected units from high-energy electrostatic fields. Keep units in conductive foam at all
times until ready to use.
3.
Use proper anti-static handling procedures.
4.
Stresses above those listed under "Absolute Maximum Ratings" may cause permanent damage to the
device. This is a stress rating only and functional operation at or above these specifications is not
implied. Exposure to the above maximum rated conditions for extended periods may affect device
reliability.
5.
From T
MIN
to T
MAX
.
6.
End-point linearity
7.
Differential Non-linearity is the deviation of an output step from the theoretical value of 1 LSB for any two
adjacent digital input codes.
8.
Guaranteed by design, but not production tested.
9.
Logic inputs are MOS gates. I
IN
typically is less than 1nA @ 25
C.
10.
AC performance characteristics are included for design guidance only and are subject to sample testing
only.
11.
R
L
= 100
, C
EXT
= 13pF; all data inputs 0V to V
DD
or V
DD
to 0V; from 50% digital input change to 90% of
final analog output.
12.
Settling to
0.01% FSR (strobed); all data inputs 0V to V
DD
or V
DD
to 0V.
13.
V
REF
= 0V, DAC register alternatively loaded with all 0's and all 1's.
14.
V
REF
= 20V
P-P
; F = 10kHz sinewave.
15.
V
REF
= 20V
P-P
; F = 1kHz sinewave.
16.
Measured using internal feedback resistor with DAC loaded with all 1's.
17.
All digital inputs = 0V.
18.
All digital inputs 0V or V
DD.
Corporation
SIGNAL PROCESSING EXCELLENCE
180
ORDERING INFORMATION
Model
Integral Linearity
Package
0
C to +70
C Operating Temperature
SP7545JCN ............................................................................
2LSB .................................................................................. 20pin, 0.3" Plastic DIP
SP7545JCL .............................................................................
2LSB ................................................................................................... 20pin PLCC
SP7545KCN ............................................................................
1LSB .................................................................................. 20pin, 0.3" Plastic DIP
SP7545KCL ............................................................................
1LSB ................................................................................................... 20pin PLCC
40
C to +85
C Operating Temperature
SP7545JIN ..............................................................................
2LSB .................................................................................. 20pin, 0.3" Plastic DIP
SP7545JIL ..............................................................................
2LSB ................................................................................................... 20pin PLCC
SP7545KIN .............................................................................
1LSB .................................................................................. 20pin, 0.3" Plastic DIP
SP7545KIL ..............................................................................
1LSB ................................................................................................... 20pin PLCC
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