AD780ANZ Analog Devices Inc, AD780ANZ Datasheet - Page 8
AD780ANZ
Manufacturer Part Number
AD780ANZ
Description
IC PREC V-REF 2.5V/3.0V 8-DIP
Manufacturer
Analog Devices Inc
Type
Voltage Referencer
Specifications of AD780ANZ
Temperature Coefficient
7ppm/°C
Design Resources
Using AD8599 as an Ultralow Distortion Driver for the AD7991 (CN0043) Using AD8599 as an Ultralow Distortion Driver for the AD7995 (CN0044) Using AD8599 as an Ultralow Distortion Driver for the AD7999 (CN0045) Using AD7328 in Appls with Single-Ended Industrial-Level Signals (CN0047) AD5382 Channel Monitor Function (CN0012) AD5383 Channel Monitor Function (CN0015) AD5390/91/92 Channel Monitor Function (CN0030) Measuring -48 V High-Side Current Using AD629, AD8603, AD780, and AD7453 (CN0100) High Voltage, High Precision Current Sensing with Output Level Shifting Using AD8210 and AD8274 (CN0116)
Reference Type
Series and Shunt, Programmable
Voltage - Output
2.5V, 3V
Tolerance
±5mV
Voltage - Input
4 ~ 36 V
Number Of Channels
1
Current - Quiescent
1mA
Current - Output
10mA
Operating Temperature
-40°C ~ 85°C
Mounting Type
Through Hole
Package / Case
8-DIP (0.300", 7.62mm)
Topology
Series
Input Voltage
4V To 36V
Reference Voltage
2.5V
Reference Voltage Tolerance
5mV
Voltage Reference Case Style
DIP
No. Of Pins
8
Current, Output
0 to 10 mA
Current, Supply
0.75 mA
Package Type
PDIP-8
Power Dissipation
500 mW
Regulation, Line
10 μV/V
Regulation, Load
75 μV/mA
Regulator Type
Negative Voltage Out, Series/Shunt
Temperature, Operating, Range
-40 to +85 °C
Voltage, Input
5 V
Voltage, Noise
4 μVp-p
Voltage, Output
2.505 or 3.005 V
Voltage, Supply
4.5 to 5 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Cathode
-
Lead Free Status / Rohs Status
RoHS Compliant part
Electrostatic Device
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD780ANZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
AD780
Notice how sensitive the current dependent factor on V
large amount of current, even in tens of microamp, drawn from
the TEMP pin can cause the V
The choice of C1 and C2 was dictated primarily by the need for
a relatively flat response that rolled off early in the high
frequency noise at the output. However, there is considerable
margin in the choice of these capacitors. For example, the user
can actually put a huge C2 on the TEMP pin with none on the
output pin. However, one must either put very little or a lot of
capacitance at the TEMP pin. Intermediate values of
capacitance can sometimes cause oscillation. In any case, the
user should follow the recommendation in Figure 6.
TEMPERATURE TRANSDUCER CIRCUIT
The circuit shown in Figure 13 is a temperature transducer that
amplifies the TEMP output voltage by a gain of a little over +5
to provide a wider full-scale output range. The digital
potentiometer can be used to adjust the output so it varies by
exactly 10 mV/°C.
To minimize resistance changes with temperature, resistors with
low temperature coefficients, such as metal film resistors,
should be used.
SUPPLY CURRENT OVER TEMPERATURE
The AD780’s quiescent current varies slightly over temperature
and input supply range. The test limit is 1 mA over the
industrial and 1.3 mA over the military temperature range.
Typical performance with input voltage and temperature
variation is shown in Figure 14.
1µF
Figure 13. Differential Temperature Transducer
AD780
GND
+V
5V
2
4
IN
TEMP
3
OUT
1.27kΩ
200Ω
(1%)
R
R
and TEMP output to fail.
BP
B
AD820
6.04kΩ (1%)
R
F
10mV/°C
OUT
is. A
Rev. E | Page 8 of 12
TURN-ON TIME
The time required for the output voltage to reach its final value
within a specified error band is defined as the turn-on settling
time. The two major factors that affect this are the active circuit
settling time and the time for the thermal gradients on the chip
to stabilize. Typical settling performance is shown in Figure 15.
The AD780 settles to within 0.1% of its final value within 10 µs.
DYNAMIC PERFORMANCE
The output stage of the AD780 has been designed to provide
superior static and dynamic load regulation.
Figure 16 and Figure 17 show the performance of the AD780
while driving a 0 mA to 10 mA load.
2.500V
2.499V
2.498V
0.85
0.80
0.75
0.70
0.65
0.60
5V
0V
4
Figure 14. Typical Supply Current over Temperature
V
Figure 15. Turn-On Settling Time Performance
V
OUT
IN
INPUT VOLTAGE (V)
10µs/DIV
–55°C
+25°C
+125°C
3
6
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