AD7763BSVZ Analog Devices Inc, AD7763BSVZ Datasheet - Page 9

IC ADC 24BIT S/D 625KSPS 64-TQFP

AD7763BSVZ

Manufacturer Part Number
AD7763BSVZ
Description
IC ADC 24BIT S/D 625KSPS 64-TQFP
Manufacturer
Analog Devices Inc
Datasheet

Specifications of AD7763BSVZ

Data Interface
Serial, SPI™
Number Of Bits
24
Sampling Rate (per Second)
625k
Number Of Converters
1
Power Dissipation (max)
955.5mW
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
64-TQFP Exposed Pad
Resolution (bits)
24bit
Input Channel Type
Differential
Supply Voltage Range - Analogue
2.375V To 2.625V, 3.15V To 5.25V, 4.75V To 5.25V
Supply Voltage Range -
RoHS Compliant
Sampling Rate
625kSPS
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

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Pin No.
8
30
17
37
3
2
36
38
39, 40, 45
46 to 48
49
50
51
52
54
55
56
58
60
61
Mnemonic
DECAPA
DECAPB
R
RESET
MCLK
MCLKGND
SYNC
DRDY
SH2:0
ADR2:0
SCP
SDL
FSI
SDI
SDO
SCO
FSO
CDIV
SCR
I
2
BIAS
S
Decoupling Pin. A 100 nF capacitor must be inserted between this pin and AGND1.
Decoupling Pin. A 33 pF capacitor must be inserted between this pin and AGND3.
Bias Current Setting. A resistor must be inserted between this pin and AGND.
See the Bias Resistor Selection section.
A falling edge on this pin resets all internal digital circuitry. Holding this pin low
keeps the AD7763 in a reset state.
Master Clock Input. A low jitter digital clock must be applied to this pin. The output data rate
depends on the frequency of this clock. See the Clocking the AD7763 section.
Master Clock Ground Sensing Pin.
Synchronization Input. A falling edge on this pin resets the internal filter. This can be used
to synchronize multiple devices in a system.
Data Ready Output. Each time new conversion data is available, an active low pulse,
½ ICLK period wide, is produced on this pin. See the AD7763 Interface section.
Share Pins 2:0. For multiple AD7763 devices sharing a common serial bus. Each device is wired
with the binary value that represents the number of devices sharing the serial bus. SH2 is the
MSB. See the Sharing the Serial Bus section.
Address 2:0. Allows multiple AD7763 devices to share a common serial bus. Each device must be
programmed with an individual address using these three pins. See the Sharing the Serial Bus
section.
Serial Clock Polarity. Determines on which edge of SCO the data bits are clocked out and on
which edge they are valid. All timing diagrams are shown with SCP = 0, and all SCO edges
shown should be inverted for SCP = 1.
Serial Data Latch. A pulse is output on this pin after every 16 data bits. The pulse is one SCO
period wide and can be used in conjunction with FSO as an alternative framing method for
serial transfers requiring a framing signal more frequent than every 32 bits.
Frame Sync In. The status of this pin is checked on the falling edge of SCO. If this pin is low, then
the first data bit is latched in on the next SCO falling edge when SCP = 0 or on the rising edge of
SCO if SCP = 1.
Serial Data In. The first data bit (MSB) must be valid on the next SCO falling edge when SCP = 0
(or SCO rising edge SCP = 1) after the FSI event has been latched. Each write requires 32 bits: the
ALL bit, 3 address bits, and 12 register address bits, followed by the remaining 16 bits of data to
be written to the device.
Serial Data Out. Address, status, and data bits are clocked out on this line during each serial
transfer.
If SCP = 0, each bit is clocked out on an SCO rising edge and is valid on the falling edge. When
the I
specification. See the Reading Data Using the I
Serial Clock Out. This clock signal is derived from the internal ICLK signal. The frequency of SCO
is equal to either ICLK or ICLK/2, depending on the state of the CDIV and SCR pins (see the
AD7763 Interface
SCK by the I
Frame Sync Out. This signal frames the serial data output and is 32 SCO periods wide. The
exception to the framing behavior of FSO occurs in decimate × 32 mode, where, for certain
combinations of CDIV and SCR, the FSO signal is constantly logic low. See the
Using the SPI Interface
defined as WS in the I
Clock Divider. This pin is used to select the ratio of MCLK to ICLK. See the AD7763 Interface
section.
Serial Clock Rate. This pin and the CDIV pin program the SCO frequency (see
I
outputs as the SD signal, the SCO pin outputs the SCK signal, and the FSO pin outputs the WS
signal. When writing to the AD7763, the I
See the
Description
2
S Select. A Logic 1 on this pin changes the serial data-out mode from SPI to I
2
S pin is set to logic high, this pin outputs the signal defined as SD in the I
Reading Data Using the I
2
S bus specification. See the
section). When the I
Rev. A | Page 9 of 32
2
S bus specification. See the
section. When the I
2
S Interface
2
S pin is logic high, this pin outputs the signal defined as
Reading Data Using the I
2
S pin is set to logic low and the SPI interface is used.
2
S pin is set to logic high, this pin outputs the signal
section for further details.
2
S Interface section for details.
Reading Data Using the I
2
S Interface
2
S Interface
Table 7
section.
Reading Data
2
2
S. The SDO pin
S bus
).
AD7763
section.

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