Analog Devices AD9253 Evaluation Board AD9253-125EBZ AD9253-125EBZ Fiche De Données
Codes de produits
AD9253-125EBZ
AD9253
Data Sheet
Rev. 0 | Page 30 of 40
Table 12. PN Sequence
Sequence
Initial
Value
Value
First Three Output Samples
(MSB First) Twos Complement
(MSB First) Twos Complement
PN Sequence Short
0x1FE0
0x1DF1, 0x3CC8, 0x294E
PN Sequence Long
0x1FFF 0x1FE0,
0x2001,
0x1C00
Consult the Memory Map section for information on how to
change these additional digital output timing features through
the SPI.
change these additional digital output timing features through
the SPI.
SDIO/OLM Pin
For applications that do not require SPI mode operation, the
CSB pin is tied to AVDD, and the SDIO/OLM pin controls the
output lane mode according to Table 13.
CSB pin is tied to AVDD, and the SDIO/OLM pin controls the
output lane mode according to Table 13.
For applications where this pin is not used, CSB should be
tied to AVDD. When using the one-lane mode, the encode
rate should be ≤62.5 MSPS to meet the maximum output rate
of 1 Gbps.
tied to AVDD. When using the one-lane mode, the encode
rate should be ≤62.5 MSPS to meet the maximum output rate
of 1 Gbps.
Table 13. Output Lane Mode Pin Settings
OLM Pin
Voltage
Voltage
Output Mode
AVDD (Default)
Two-lane. 1× frame, 16-bit serial output
GND
One-lane. 1× frame, 16-bit serial output
SCLK/DTP Pin
The SCLK/DTP pin is for use in applications that do not require
SPI mode operation. This pin can enable a single digital test
pattern if it and the CSB pin are held high during device power-
up. When SCLK/DTP is tied to AVDD, the ADC channel
outputs shift out the following pattern: 1000 0000 0000 0000.
The FCO and DCO function normally while all channels shift out
the repeatable test pattern. This pattern allows the user to
perform timing alignment adjustments among the FCO, DCO,
SPI mode operation. This pin can enable a single digital test
pattern if it and the CSB pin are held high during device power-
up. When SCLK/DTP is tied to AVDD, the ADC channel
outputs shift out the following pattern: 1000 0000 0000 0000.
The FCO and DCO function normally while all channels shift out
the repeatable test pattern. This pattern allows the user to
perform timing alignment adjustments among the FCO, DCO,
and output data. This pin has an internal 10 kΩ resistor to GND.
It can be left unconnected.
It can be left unconnected.
Table 14. Digital Test Pattern Pin Settings
Selected DTP
DTP Voltage
Resulting
D0±x and D1±x
D0±x and D1±x
Normal Operation
10 kΩ to AGND
Normal operation
DTP
AVDD
1000 0000 0000 0000
Additional and custom test patterns can also be observed when
commanded from the SPI port. Consult the Memory Map
section for information about the options available.
commanded from the SPI port. Consult the Memory Map
section for information about the options available.
CSB Pin
The CSB pin should be tied to AVDD for applications that do
not require SPI mode operation. By tying CSB high, all SCLK
and SDIO information is ignored.
not require SPI mode operation. By tying CSB high, all SCLK
and SDIO information is ignored.
RBIAS Pin
To set the internal core bias current of the ADC, place a
10.0 kΩ, 1% tolerance resistor to ground at the RBIAS pin.
10.0 kΩ, 1% tolerance resistor to ground at the RBIAS pin.
OUTPUT TEST MODES
The output test options are described in Table 11 and controlled by
the output test mode bits at Address 0x0D. When an output test
mode is enabled, the analog section of the ADC is disconnected
from the digital back-end blocks and the test pattern is run
through the output formatting block. Some of the test patterns
are subject to output formatting, and some are not. The PN
generators from the PN sequence tests can be reset by setting
Bit 4 or Bit 5 of Register 0x0D. These tests can be performed
with or without an analog signal (if present, the analog signal is
ignored), but they do require an encode clock. For more
information, see the
the output test mode bits at Address 0x0D. When an output test
mode is enabled, the analog section of the ADC is disconnected
from the digital back-end blocks and the test pattern is run
through the output formatting block. Some of the test patterns
are subject to output formatting, and some are not. The PN
generators from the PN sequence tests can be reset by setting
Bit 4 or Bit 5 of Register 0x0D. These tests can be performed
with or without an analog signal (if present, the analog signal is
ignored), but they do require an encode clock. For more
information, see the
, Interfacing to
High Speed ADCs via SPI.