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AD9129-MIX-EBZ View Datasheet(PDF) - Analog Devices

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AD9129-MIX-EBZ Datasheet PDF : 68 Pages
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AD9119/AD9129
Data Sheet
For the AD9119, the data port is 11-bit instead of 14-bit, so
P0_D11, P0_D12, P0_D13, P1_D11, P1_D12, and P1_D13 are
not used in the calculation of the parity bit. Thus, the parity bit
is calculated over 29 bits (including the frame/parity bit) for the
AD9129 and over 23 bits for the AD9119.
If a parity error occurs, the parity error counter (Register 0x5D
or Register 0x5E) is incremented. Parity errors on the bits that
are sampled by the rising edge of DCI increment the parity
rising edge error counter (Register 0x5D) and set the parity
error rising edge bit (Register 0x5C, Bit 0). Parity errors on the
bits that are sampled by the falling edge of DCI increment the
parity falling edge error counter (Register 0x5E) and set the
parity error falling edge bit (Register 0x5C, Bit 1). The parity
counter continues to accumulate until it is cleared, or until it
reaches a maximum value of 255. The count can be cleared by
writing 1b to Register 0x5C, Bit 5.
An IRQ can be enabled to trigger when a parity error occurs by
writing 1b to Register 0x04, Bit 2 for rising edge-based parity
detection or to Register 0x04, Bit 3 for falling edge-based parity.
The status of IRQ can be measured via Register 0x06, Bit 2 or
Register 0x06, Bit 3 or by using the IRQ pin. When using the IRQ
FRAME/ 1
PARITY
DATA 28
FRAME
INPUT
LATCH
FIFO PH0
FIFO PH1
14
PARITY/ 28 14
SED LOGIC
pin and more than one IRQ is enabled, check Register 0x06,
Bits[3:2] when an IRQ event occurs to determine whether the
IRQ was caused by a parity error. The IRQ can also be cleared
by writing 1b to Register 0x06, Bit 2 or Register 0x06, Bit 3.
The parity bit feature can also be used to validate the interface
timing. As described previously, the host provides a parity bit
with the data samples and configures the AD9119/AD9129 to
generate an IRQ. The user can then sweep the sampling instance
of the AD9119/AD9129 input registers to determine at what
point a sampling error occurs.
DIGITAL DATAPATH DESCRIPTION
Figure 133 provides a more detailed diagram of the AD9119/
AD9129 digital datapath. The 22-bit/28-bit datapath with
internal DDR clocking interfaces with the dual 11-bit/14-bit
input data ports. Because two 11-bit/14-bit samples are captured
on each clock edge of DCI, four consecutive samples are captured
per DCI clock cycle. Samples captured on the rising edge of DCI
propagate through the upper section at a rate of DACCLK/2
(DDR), and those captured on the falling edge propagate through
the lower section.
14 BITS
REG 0
REG 1
14
REG 2
REG 3
REG 4
14
REG 5
REG 6
REG 7
TO DAC
DECODE
MIX-MODE
1
DCI
DLL
INPUT
LATCH
FIFO PH2
FIFO PH3
14
PARITY/ 28 14
SED LOGIC
DACCLK/4
REG 0
14
REG 1
REG 2
14
REG 3
REG 4
REG 5
REG 6
REG 7
DACCLK/4 DIST.
DACCLK/4
FRAME
SPI FIFO ALIGN REQUEST
REG 0x11[7]
RESET
LOGIC
SPI FIFO ALIGN ACKNOWLEDGE
REG 0x11[6]
FIFO WRITE POINTER OFFSET
REG 0x12[2:0]
Figure 133. Digital Datapath of the AD9119/AD9129
Rev. 0 | Page 42 of 68
 

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