AD2S1210WDSTZ View Datasheet(PDF) - Analog Devices
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AD2S1210WDSTZ
Analog Devices
AD2S1210WDSTZ Datasheet PDF : 36 Pages
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INCREMENTAL ENCODER OUTPUTS
The A, B, and NM incremental encoder emulation outputs are
free running and are valid if the resolver format input signals
applied to the converter are valid.
The AD2S1210 can be configured to emulate a 256-line, a
1024-line, a 4096-line, or a 16,384-line encoder. For example,
if the AD2S1210 is configured for 12-bit resolution, one revolu-
tion produces 1024 A and B pulses. Pulse A leads Pulse B for
increasing angular rotation (that is, clockwise direction).
The resolution of the encoder emulation outputs of the AD2S1210
is generally configured to match the resolution of the digital output.
However, the encoder emulation outputs of the AD2S1210 can also
be configured to have a lower resolution than the digital outputs.
For example, if the AD2S1210 is configured for 16-bit resolu-
tion, then the encoder emulation outputs can also be configured
for 14-bit, 12-bit, or 10-bit resolution. However, the resolution
of the encoder emulation outputs cannot be higher than the
resolution of the digital output. If the AD2S1210 is configured
such that the resolution of the encoder emulation outputs is
higher than the resolution of the digital outputs, the AD2S1210
internally overrides this configuration. In this event, the resolu-
tion of the encoder outputs is set to match the resolution of the
digital outputs. The resolution of the encoder emulation outputs
can be programmed by writing to Bit D3 and Bit D2 of the
control register.
The north marker pulse is generated as the absolute angular
position passes through zero. The north marker pulse width
is set internally for 90° and is defined relative to the A cycle.
Figure 36 details the relationship between A, B, and NM.
A
B
NM
Figure 36. A, B, and NM Timing for Clockwise Rotation
The inclusion of A and B outputs allows the AD2S1210 with
resolver solution to replace optical encoders directly without
the need to change or upgrade existing application software.
AD2S1210
SUPPLY SEQUENCING AND RESET
The AD2S1210 requires an external reset signal to hold the
RESET input low until VDD is within the specified operating
range of 4.5 V to 5.5 V.
The RESET pin must be held low for a minimum of 10 μs after
VDD is within the specified range (shown as tRST in Figure 37).
Applying a RESET signal to the AD2S1210 initializes the output
position to a value of 0x000 (degrees output through the parallel,
serial, and encoder interfaces) and causes LOS to be indicated
(LOT and DOS pins pulled low), as shown in Figure 37.
Failure to apply the correct power-up/reset sequence may result
in an incorrect position indication.
After a rising edge on the RESET input, the device must be allowed
at least tTRACK ms (see Figure 37) for the internal circuitry to stabil-
ize and the tracking loop to settle to the step change of the input
position. For the duration of tTRACK fault indications may occur
on the LOT and DOS pins due to the step response caused by
the RESET. The duration of tTRACK is dependent on the converter
resolution as outlined in Table 27. After tTRACK, the fault register
should be read and cleared as outlined in the Clearing the Fault
Register section. The time required to read and clear the fault
register is indicated as tFAULT, and is defined by the interface
speed of the DSP/microprocessor used in the application. (Note
that if position data is acquired via the encoder outputs, these
can be monitored during tTRACK.)
Table 27. tTRACK vs. Resolution (fCLKIN = 8.192 MHz)
Resolution (Bits)
tTRACK (ms)
10
10
12
20
14
25
16
60
VDD 4.75V
RESET
tRST
tTRACK
SAMPLE
tFAULT
LOT
DOS
VALID
OUTPUT
DATA
Figure 37. Power Supply Sequencing and Reset
Rev. 0 | Page 31 of 36
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