AD680ANZ Analog Devices Inc, AD680ANZ Datasheet - Page 6
AD680ANZ
Manufacturer Part Number
AD680ANZ
Description
IC VREF PREC 2.5V LP 8-DIP
Manufacturer
Analog Devices Inc
Type
Voltage Referencer
Specifications of AD680ANZ
Temperature Coefficient
20ppm/°C
Reference Type
Series
Voltage - Output
2.5V
Tolerance
±0.2%
Voltage - Input
4.5 ~ 36 V
Number Of Channels
1
Current - Quiescent
250µA
Current - Output
50mA
Operating Temperature
-40°C ~ 85°C
Mounting Type
Through Hole
Package / Case
8-DIP (0.300", 7.62mm)
Topology
Series
Input Voltage
4.5V 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
195 μA
Package Type
PDIP-8
Power Dissipation
1 mW
Regulation, Line
40 μV/V
Regulation, Load
80 μV/mA
Regulator Type
Switching
Temperature, Operating, Range
-40 to +85 °C
Voltage, Input
5 V
Voltage, Noise
8 μVp-p
Voltage, Output
2.5 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
AD680
THEORY OF OPERATION
Band gap references are the high performance solution for low
supply voltage operation. A typical precision band gap consists
of a reference core and buffer amplifier. Based on a new, pat-
ented band gap reference design (Figure 5), the AD680 merges
the amplifier and the core band gap function to produce a
compact, complete precision reference.
Central to the device is a high gain amplifier with an intentionally
large proportional to absolute temperature (PTAT) input offset.
This offset is controlled by the area ratio of the amplifier input
pair, Q1 and Q2, and is developed across Resistor R1. Transistor
Q12’s base emitter voltage has a complementary to absolute
temperature (CTAT) characteristic. Resistor R2 and the parallel
combination of Resistor R3 and Resistor R4 “multiply” the PTAT
voltage across the R1 resistor. Trimming the R3 and R4 resistors
to the proper ratio produces a temperature invariant of 2.5 V at
the output. The result is an accurate, stable output voltage
accomplished with a minimum number of components.
APPLYING THE AD680
The AD680 is simple to use in virtually all precision reference
applications. When power is applied to +V
is tied to ground, V
typically requires less than 250 μA of current when operating
from a supply of 4.5 V to 36 V.
To operate the AD680, the +V
GND pin with a 0.1 μF capacitor tied as close to the AD680 as
possible. Although the ground current for the AD680 is small,
typically 195 μA, a direct connection should be made between
the AD680 GND pin and the system ground plane.
TEMP
GND
R5
Q10
Q9
R6
R7
Q2
OUT
Q3
Figure 5. Schematic Diagram
provides a 2.5 V output. The AD680
Q8
8
×
Q1
1
Q6
×
Q4
IN
+V
pin must be bypassed to the
IN
C1
Q7
Q5
IN
and the GND pin
R1
R2
Q12
Q11
R3
R4
V
OUT
Rev. H | Page 6 of 12
Reference outputs are frequently required to handle fast
transients caused by input switching networks, commonly
found in ADCs and measurement instrumentation equipment.
Many of the dynamic problems associated with this situation
can be minimized with a few simple techniques. Using a series
resistor between the reference output and the load tends to
“decouple” the reference output from the transient source, or a
relatively large capacitor connected from the reference output to
ground can serve as a charge storage element to absorb and
deliver charge as required by the dynamic load. A 50 nF capaci-
tor is recommended for the AD680 in this case; this is large
enough to store the required charge, but small enough not to
disrupt the stability of the reference.
The 8-lead PDIP and 8-lead SOIC packaged versions of the
AD680 also provide a temperature output pin. The voltage on
this pin is nominally 596 mV at 25°C. This pin provides an
output linearly proportional to temperature with a
characteristic of 2 mV/°C.
NOISE PERFORMANCE
The noise generated by the AD680 is typically less than 8 μV p-p
over the 0.1 Hz to 10 Hz band. Figure 6 shows the 0.1 Hz to 10 Hz
noise of a typical AD680. The noise measurement is made with a
band-pass filter made of a 1-pole high-pass filter, with a corner
frequency at 0.1 Hz, and a 2-pole low-pass filter, with a corner
frequency at 12.6 Hz, to create a filter with a 9.922 Hz bandwidth.
Noise in a 300 kHz bandwidth is approximately 800 μV p-p.
Figure 7 shows the broadband noise of a typical AD680.
5μV
100
0%
90
10
Figure 6. 0.1 Hz to 10 Hz Noise
1s
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