AD7817BRUZ Analog Devices Inc, AD7817BRUZ Datasheet - Page 12
AD7817BRUZ
Manufacturer Part Number
AD7817BRUZ
Description
14 CH. ADC W/ON-CHIP TEMP SENSOR I.C.
Manufacturer
Analog Devices Inc
Datasheet
1.AD7817ARZ.pdf
(20 pages)
Specifications of AD7817BRUZ
Function
Temp Monitoring System (Sensor)
Topology
ADC, Multiplexer, Register Bank
Sensor Type
Internal
Sensing Temperature
-40°C ~ 85°C
Output Type
MICROWIRE™, QSPI™, SPI™
Output Alarm
Yes
Output Fan
Yes
Voltage - Supply
2.7 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-TSSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
EVAL-AD7816/7/8EB - BOARD EVALUATION FOR AD7816/7/8
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
AD7817BRUZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
AD7816/AD7817/AD7818
DC Acquisition Time
The ADC starts a new acquisition phase at the end of a conver-
sion and ends on the falling edge of the CONVST signal. At the
end of a conversion a settling time is associated with the sam-
pling circuit. This settling time lasts approximately 100 ns. The
analog signal on V
time. Therefore, the minimum acquisition time needed is
approximately 100 ns.
Figure 8 shows the equivalent charging circuit for the sampling
capacitor when the ADC is in its acquisition phase. R2 repre-
sents the source impedance of a buffer amplifier or resistive
network, R1 is an internal multiplexer resistance and C1 is the
sampling capacitor.
During the acquisition phase the sampling capacitor must be
charged to within a 1/2 LSB of its final value. The time it takes
to charge the sampling capacitor (T
following formula:
For small values of source impedance, the settling time associ-
ated with the sampling circuit (100 ns) is, in effect, the acquisi-
tion time of the ADC. For example, with a source impedance (R2)
of 10 Ω the charge time for the sampling capacitor is approxi-
mately 23 ns. The charge time becomes significant for source
impedances of 1 kΩ and greater.
AC Acquisition Time
In ac applications it is recommended to always buffer analog
input signals. The source impedance of the drive circuitry must
be kept as low as possible to minimize the acquisition time of
the ADC. Large values of source impedance will cause the THD
to degrade at high throughput rates.
ON-CHIP REFERENCE
The AD7816, AD7817, and AD7818 have an on-chip 1.2 V
band gap reference that is gained up to give an output of 2.5 V.
The on-chip reference is selected by connecting the REF
to analog ground. This causes SW1 (see Figure 9) to open and
the reference amplifier to power up during a conversion. There-
fore, the on-chip reference is not available externally. An external
2.5 V reference can be connected to the REF
effect of shutting down the on-chip reference circuitry and reduc-
ing I
DD
A
IN
by about 0.25 mA.
Figure 7. Equivalent Analog Input Circuit
4pF
C2
Figure 8. Equivalent Sampling Circuit
R2
T
CHARGE
IN +
V
DD
is also being acquired during this settling
= 7.6 × (R2 + 1 kΩ) × 3 pF
D1
D2
V
IN
CONVERT PHASE - SWITCH OPEN
TRACK PHASE - SWITCH CLOSED
1k
R1
CHARGE
1k
R1
3pF
C1
) is given by the
IN
pin. This has the
C1
3pF
V
BALANCE
IN
pin
–12–
ADC TRANSFER FUNCTION
The output coding of the AD7816, AD7817, and AD7818 is
straight binary. The designed code transitions occur at succes-
sive integer LSB values (i.e., 1 LSB, 2 LSBs, etc.). The LSB
size is = 2.5 V/1024 = 2.44 mV. The ideal transfer characteristic
is shown in Figure 10 below.
TEMPERATURE MEASUREMENT
The on-chip temperature sensor can be accessed via multiplexer
Channel 0, i.e., by writing 0 0 0 to the channel address register.
The temperature is also the power on default selection. The
transfer characteristic of the temperature sensor is shown in
Figure 11 below. The result of the 10-bit conversion on Chan-
nel 0 can be converted to degrees centigrade by using the fol-
lowing equation.
Figure 11. Temperature Sensor Transfer Characteristic
000...010
000...001
000...000
111...111
111...110
111...000
011...111
1.2V
125°C
–55°C
Figure 10. ADC Transfer Function
0V
T
192Dec
Figure 9. On-Chip Reference
AMB
1LSB
= –103°C + (ADC Code/4)
SW1
REF
ADC CODE
ANALOG INPUT
26k
24k
IN
1.2V
1LSB=2.5/1024
2.44mV
2.5V
912Dec
EXTERNAL
REFERENCE
DETECT
+2.5V•1LSB
BUFFER
REV. C
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