AD7490BRU(RevA) データシートの表示(PDF) - Analog Devices
部品番号
コンポーネント説明
メーカー
AD7490BRU Datasheet PDF : 24 Pages
| |||
AD7490
SHADOW REGISTER
The Shadow Register on the AD7490 is a 16-bit, write-only register. Data is loaded from the DIN Pin of the AD7490 on the falling
edge of SCLK. The data is transferred on the DIN line at the same time as a conversion result is read from the part. This requires 16 serial
falling edges for the data transfer. The information is clocked into the Shadow Register provided the SEQ and Shadow Bits were set to
0, 1 respectively in the previous write to the Control Register. MSB denotes the first bit in the data stream. Each bit represents an
analog input from channel 0 through to channel 15. A sequence of channels may be selected through which the AD7490 will cycle with
each consecutive CS falling edge after the write to the Shadow Register. To select a sequence of channels, the associated channel bit
must be set for each analog input. The AD7490 will continuously cycle through the selected channels in ascending order, beginning
with the lowest channel, until a write operation occurs (i.e., the WRITE Bit is set to 1) with the SEQ and Shadow Bits configured in
any way except 1, 0 (see Table IV). The bit functions are outlined in Table V.
MSB
VIN0 VIN1
VIN2
VIN3
VIN4
Table V. Shadow Register Bit Functions
LSB
VIN5 VIN6 VIN7 VIN8 VIN9 VIN10 VIN11 VIN12 VIN13 VIN14 VIN15
POWER ON
DUMMY CONVERSIONS
DIN = ALL 1s
POWER ON
DUMMY CONVERSIONS
DIN = ALL 1s
DIN: WRITE TO CONTROL REGISTER,
CS
WRITE BIT = 1,
SELECT CODING, RANGE, AND POWER MODE
SELECT CHANNEL A3–A0 FOR CONVERSION,
SEQ = SHADOW = 0
DIN: WRITE TO CONTROL REGISTER,
CS
WRITE BIT = 1,
SELECT CODING, RANGE, AND POWER MODE
SELECT CHANNEL A3–A0 FOR CONVERSION,
SEQ = 0 SHADOW = 1
DOUT: CONVERSION RESULT FROM PREVIOUSLY
SELECTED CHANNEL A3–A0
CS
DIN: WRITE TO CONTROL REGISTER,
WRITE BIT = 1,
SELECT CODING, RANGE, AND POWER MODE
WRITE BIT = 1,
SEQ = SHADOW = 0
SELECT A3–A0 FOR CONVERSION,
SEQ = SHADOW = 0
Figure 2. SEQ Bit = 0, SHADOW Bit = 0 Flowchart
Figure 2 reflects the normal operation of a multichannel ADC,
where each serial transfer selects the next channel for conversion.
In this mode of operation, the sequencer function is not used.
Figure 3 shows how to program the AD7490 to continuously con-
vert on a particular sequence of channels. To exit this mode of
operation and revert back to the normal mode of operation of a
multichannel ADC (as outlined in Figure 2), ensure the WRITE
Bit = 1 and the SEQ = SHADOW = 0 on the next serial transfer.
CS
CS
WRITE
BIT = 0
DOUT: CONVERSION RESULT FROM PREVIOUSLY
SELECTED CHANNEL A3–A0
DIN: WRITE TO SHADOW REGISTER, SELECTING
WHICH CHANNELS TO CONVERT ON; CHANNELS
SELECTED NEED NOT BE CONSECUTIVE
WRITE BIT = 0
WRITE BIT = 1,
SEQ = 1, SHADOW = 0
CONTINUOUSLY
CONVERTS ON THE
SELECTED
SEQUENCE OF
CHANNELS
WRITE BIT = 0
CONTINUOUSLY
CONVERTS ON THE
SELECTED SEQUENCE
OF CHANNELS BUT
WILL ALLOW RANGE,
CODING, AND SO ON,
TO CHANGE IN THE
CONTROL REGISTER
WITHOUT INTERRUPT-
ING THE SEQUENCE
PROVIDED,
SEQ = 1 SHADOW = 0
WRITE BIT = 1,
SEQ = 1,
SHADOW = 0
Figure 3. SEQ Bit = 0, SHADOW Bit = 1 Flowchart
REV. A
–11–
Share Link: 