AD7606BSTZ-4RL Analog Devices Inc, AD7606BSTZ-4RL Datasheet - Page 23
AD7606BSTZ-4RL
Manufacturer Part Number
AD7606BSTZ-4RL
Description
Simulat Sampliing Bipolar 16 Bit I.C.
Manufacturer
Analog Devices Inc
Type
Data Acquisition System (DAS), ADCr
Datasheet
1.AD7606BSTZ-6.pdf
(36 pages)
Specifications of AD7606BSTZ-4RL
Design Resources
Layout Considerations for an Expandable Multichannel Simultaneous Sampling Data Acquisition System Based on AD7606 (CN0148)
Resolution (bits)
16 b
Sampling Rate (per Second)
200k
Data Interface
DSP, MICROWIRE™, Parallel, QSPI™, Serial, SPI™
Voltage Supply Source
Single Supply
Voltage - Supply
4.75 V ~ 5.25 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
64-LFQFP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
AD7606BSTZ-4RL
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Analog Input Antialiasing Filter
An analog antialiasing filter (a second-order Butterworth) is also
provided on the AD7606/AD7606-6/AD7606-4. Figure 37 and
Figure 38 show the frequency and phase response, respectively,
of the analog antialiasing filter. In the ±5 V range, the −3 dB
frequency is typically 15 kHz. In the ±10 V range, the −3 dB
frequency is typically 23 kHz.
Track-and-Hold Amplifiers
The track-and-hold amplifiers on the AD7606/AD7606-6/
AD7606-4 allow the ADC to accurately acquire an input sine wave
of full-scale amplitude to 16-bit resolution. The track-and-hold
amplifiers sample their respective inputs simultaneously on the
rising edge of CONVST x. The aperture time for the track-and-
–10
–15
–20
–25
–30
–35
–40
–5
18
16
14
12
10
–2
–4
–6
–8
5
0
100
Figure 37. Analog Antialiasing Filter Frequency Response
8
6
4
2
0
10
AV
F
T
AV
F
T
±10V RANGE
±5V RANGE
SAMPLE
A
Figure 38. Analog Antialias Filter Phase Response
SAMPLE
A
±10V RANGE
CC
= 25°C
±5V RANGE
CC
= 25°C
, V
, V
DRIVE
DRIVE
= 200kSPS
= 200kSPS
+25
+85
+25
+85
–40
–40
= 5V
= 5V
0.1dB
10,303
9619
9326
0.1dB
5225
5225
4932
INPUT FREQUENCY (Hz)
1k
INPUT FREQUENCY (Hz)
1k
3dB
24,365Hz
23,389Hz
22,607Hz
3dB
16,162Hz
15,478Hz
14,990Hz
±5V RANGE
10k
10k
±10V RANGE
100k
100k
Rev. A | Page 23 of 36
hold (that is, the delay time between the external CONVST x
signal and the track-and-hold actually going into hold) is well
matched, by design, across all eight track-and-holds on one
device and from device to device. This matching allows more
than one AD7606/AD7606-6/AD7606-4 device to be sampled
simultaneously in a system.
The end of the conversion process across all eight channels is
indicated by the falling edge of BUSY; and it is at this point that the
track-and-holds return to track mode, and the acquisition time
for the next set of conversions begins.
The conversion clock for the part is internally generated, and
the conversion time for all channels is 4 μs on the AD7606,
3 μs on the AD7606-6, and 2 μs on the AD7606-4. On the AD7606,
the BUSY signal returns low after all eight conversions to indicate
the end of the conversion process. On the falling edge of BUSY,
the track-and-hold amplifiers return to track mode. New data
can be read from the output register via the parallel, parallel
byte, or serial interface after BUSY goes low; or, alternatively,
data from the previous conversion can be read while BUSY is
high. Reading data from the AD7606/AD7606-6/AD7606-4
while a conversion is in progress has little affect on performance
and allows a faster throughput to be achieved. In parallel mode
at V
during a conversion.
ADC TRANSFER FUNCTION
The output coding of the AD7606/AD7606-6/AD7606-4 is
twos complement. The designed code transitions occur midway
between successive integer LSB values, that is, 1/2 LSB and 3/2 LSB.
The LSB size is FSR/65,536 for the AD7606. The ideal transfer
characteristic for the AD7606/AD7606-6/AD7606-4 is shown
in Figure 39.
The LSB size is dependent on the analog input range selected.
DRIVE
Figure 39. AD7606/AD7606-6/AD7606-4 Transfer Characteristics
±10V RANGE +10V
±5V RANGE
> 3.3 V, the SNR is reduced by ~1.5 dB when reading
011...111
011...110
000...001
000...000
111...111
100...010
100...001
100...000
–FS + 1/2LSB 0V – 1/2LSB +FS – 3/2LSB
AD7606/AD7606-6/AD7606-4
+5V
+FS
±10V CODE =
±5V CODE =
MIDSCALE
0V
0V
ANALOG INPUT
10V
VIN
VIN
5V
× 32,768 ×
× 32,768 ×
–FS
–10V
–5V
LSB =
2.5V
2.5V
REF
REF
LSB
305µV
152µV
+FS – (–FS)
2
16
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