2 × VREF p-p GND 440 220 Rev. C | Page 20 of 32 10k 220 " />
參數(shù)資料
型號: AD7938BSUZ-6
廠商: Analog Devices Inc
文件頁數(shù): 13/32頁
文件大?。?/td> 0K
描述: IC ADC 12BIT 8CHAN 32TQFP
標準包裝: 1
位數(shù): 12
采樣率(每秒): 625k
數(shù)據(jù)接口: 并聯(lián)
轉(zhuǎn)換器數(shù)目: 1
功率耗散(最大): 7.5mW
電壓電源: 單電源
工作溫度: -40°C ~ 85°C
安裝類型: 表面貼裝
封裝/外殼: 32-TQFP
供應商設備封裝: 32-TQFP(7x7)
包裝: 托盤
輸入數(shù)目和類型: 8 個單端,單極;4 個差分,單極;4 個偽差分,單極;7 偽差分,單極
配用: EVAL-AD7938CBZ-ND - EVAL BOARD FOR AD7938
AD7938-6
Data Sheet
220
2 × VREF p-p
GND
440
220
Rev. C | Page 20 of 32
10k
220
20k
220
27
V+
V–
V+
V–
A
VIN+
VIN–
VREF
3.75V
2.5V
1.25V
AD7938-6
0.47F
04
75
1-
03
5
3.75V
2.5V
1.25V
Figure 27. Dual Op Amp Circuit to Convert a Single-Ended
Bipolar Signal into a Differential Unipolar Signal
10k
VREF p-p
VREF
GND
440
220
20k
220
27
V+
V–
V+
V–
A
VIN+
VIN–
VREF
AD7938-6
0.47F
04
75
1-
0
36
3.75V
2.5V
1.25V
3.75V
2.5V
1.25V
Figure 28. Dual Op Amp Circuit to Convert a Single-Ended
Unipolar Signal into a Differential Signal
Another method of driving the AD7938-6 is to use the AD8138
(or equivalent) differential amplifier. The AD8138 can be used
as a single-ended-to-differential amplifier or as a differential-to-
differential amplifier. The device is as easy to use as an op amp
and greatly simplifies differential signal amplification and driving.
Pseudo Differential Mode
The AD7938-6 can have four pseudo differential pairs (Pseudo
Mode 1) or seven pseudo differential inputs (Pseudo Mode 2)
by setting the MODE0 and MODE1 bits in the control register
to 1, 0 and 1, 1, respectively. In the case of the four pseudo
differential pairs, VIN+ is connected to the signal source, which
must have an amplitude of VREF (or 2 × VREF depending on the
range chosen) to make use of the full dynamic range of the part.
A dc input is applied to the VIN pin. The voltage applied to this
input provides an offset from ground or a pseudo ground for
the VIN+ input. In the case of the seven pseudo differential
inputs, the seven analog input signals inputs are referred to a dc
voltage applied to VIN7.
The benefit of pseudo differential inputs is that they separate
the analog input signal ground from the ADC ground allowing
dc common-mode voltages to be cancelled. The specified
voltage range for the VIN pin while in pseudo differential mode
is 0.1 V to +0.4 V; however, typically this range can extend to
0.3 V to +0.7 V when VDD = 3 V, or 0.3 V to +1.8 V when
VDD = 5 V. Figure 29 shows a connection diagram for pseudo
differential mode.
VIN+
VIN–
VREF
AD7938-6*
*ADDITIONAL PINS OMITTED FOR CLARITY.
04
75
1-
03
7
VREF p-p
DC INPUT
VOLTAGE
0.47F
Figure 29. Pseudo Differential Mode Connection Diagram
ANALOG INPUT SELECTION
As shown in Table 9, the user can set up their analog input
configuration by setting the values in the MODE0 and MODE1
bits in the control register. Assuming the configuration has been
chosen, there are different ways of selecting the analog input to
be converted depending on the state of the SEQ and SHDW bits
in the control register.
Traditional Multichannel Operation (SEQ = 0, SHDW = 0)
Any one of eight analog input channels or four pairs of channels
can be selected for conversion in any order by setting the SEQ
and SHDW bits in the control register to 0. The channel to be
converted is selected by writing to the address bits, ADD2 to
ADD0, in the control register to program the multiplexer prior
to the conversion. This mode of operation is that of a traditional
multichannel ADC where each data write selects the next
channel for conversion. Figure 30 shows a flow chart of this
mode of operation. The channel configurations are shown in
POWER ON
WRITE TO THE CONTROL REGISTER TO
SET UP OPERATING MODE, ANALOG INPUT
AND OUTPUT CONFIGURATION
SET SEQ = SHDW = 0. SELECT THE DESIRED
CHANNEL TO CONVERT (ADD2 TO ADD0).
ISSUE CONVST PULSE TO INITIATE A CONVERSION
ON THE SELECTED CHANNEL.
INITIATE A READ CYCLE TO READ THE DATA
FROM THE SELECTED CHANNEL.
INITIATE A WRITE CYCLE TO SELECT THE NEXT
CHANNEL TO BE CONVERTED BY
CHANGING THE VALUES OF BITS ADD2 TO ADD0
IN THE CONTROL REGISTER. SEQ = SHDW = 0.
04
75
1-
0
38
Figure 30. Traditional Multichannel Operation Flow Chart
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