AD28MSP02 Просмотр технического описания (PDF) - Analog Devices
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AD28MSP02 Datasheet PDF : 20 Pages
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AD28msp02
Serial Data Output
The AD28msp02’s SPORT will begin transmitting data to the
host processor at an 8 kHz rate when the PWDD and PWDA
bits (Bits 4, 5) of the control register are set to 1. In the pro-
gram shown in Figure 6, the instructions
AX0 = 0x30; { Write control word to take }
TX0 = AX0; { AD28msp02 out of powerdown }
accomplish this by writing 0x30 to the AD28msp02’s control
register. There is a short start-up time (after the end of this con-
trol register write) before the AD28msp02 raises SDOFS and
begins transmitting data; see Figure 11.
At the 13 MHz MCLK frequency, data is transmitted at an
8 kHz rate with a single 16-bit word transmitted every 125 µs.
While data is being output, the AD28msp02 asserts SDOFS at
an 8 kHz rate. Each 16-bit word transfer begins one serial clock
cycle after SDOFS is asserted.
Serial Data Input
The host processor must initiate data transfers to the
AD28msp02 by asserting the serial data input frame sync
(SDIFS) high. The 16-bit word transfer begins one serial clock
cycle after SDIFS is asserted. The DATA/CNTRL line must be
driven high when SDIFS is driven high.
The host processor must assert SDIFS shortly after the rising
edge of SCLK and must maintain SDIFS high for one cycle.
Data is then driven from the host processor (to the SDI input)
shortly after the rising edge of the next SCLK and is clocked
into the AD28msp02 on the falling edge of SCLK in that cycle.
Each bit of a 16-bit data word is thus clocked into the
AD28msp02 on the falling edge of SCLK (MSB first).
If SDIFS is asserted high again before the end of the present
data word transfer, it is not recognized until the falling edge of
SCLK in the last (LSB) cycle.
(Note: Exact SPORT timing requirements are defined in the
“Specifications” section of this data sheet.)
CONTROL REGISTER
The AD28msp02’s control register configures the device for
various modes of operation including ADC and DAC gain set-
tings, ADC input mux selection, filter bypass, and powerdown.
The AD28msp02’s host processor can read and write to the
control register through the AD28msp02’s serial port (SPORT)
by driving the DATA/CNTRL pin low.
The control register is cleared (set to 0x0000) when the
AD28msp02 is reset.
Control Register Writes
To write the control register, the host processor must assert
DATA/CNTRL low when it asserts SDIFS. If the MSB of
the bit stream is also low, the SPORT recognizes the incoming
serial data as a new control word and copies it to the
AD28msp02’s control register. The format for the control word
write is shown in Table II; reserved Bits 10-15 must be set to
zero.
15 14 13
00
0
Table II. Control Word Write Format
12 11 10
9
8
7
6
5
4
3
2
1
0
0
0
0 OG2 OG1 OG0 0 PWDD PWDA ADBY DABY IMS IPS
0
1
2
3
4
5
7–9
10–15
IPS
IMS
DABY
ADBY
PWDA
PWDD
OG2-OG0
Analog input preamplifier select: 1 = insert (+20 dB), 0 = bypass (0 dB)
Analog input multiplexer select: 1 = AUX input, 0 = NORM input
DAC high-pass filter bypass select: 0 = insert, 1 = bypass
ADC high-pass filter bypass select: 0 = insert, 1 = bypass
Powerdown analog: 0 = powerdown, 1 = operating
Powerdown digital: 0 = powerdown, 1 = operating
Analog output gain setting (for D/A output PGA)
Reserved
Gain
+6 dB
+3 dB
0 dB
–3 dB
–6 dB
–9 dB
–12 dB
–15 dB
OG2
0
0
0
0
1
1
1
1
OG1
0
0
1
1
0
0
1
1
OG0
0
1
0
1
0
1
0
1
Gain settings are accurate within ± 0.6 dB.
(Control Register is set to 0x0000 at RESET. Reserved Bits
10–15 must be set to 0 for all Control Register writes.)
–6–
REV. 0
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