AD2S1210BSTZ View Datasheet(PDF) - Analog Devices
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AD2S1210BSTZ
Analog Devices
AD2S1210BSTZ Datasheet PDF : 36 Pages
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AD2S1210
Address/Data Bit
Table 23. Encoder Resolution Settings
The MSB of each 8-bit word written to the AD2S1210 indicates
whether the 8-bit word is a register address or data. The MSB
(D7) of each register address defined on the AD2S1210 is high.
The MSB of each data word written to the AD2S1210 is low.
EnRES0
0
0
1
EnRES1
0
1
0
Resolution (Bits)
10
12
14
Note that when a data word is written to the AD2S1210, the
1
1
16
MSB is internally reconfigured as a parity bit. When reading
data from any of the read/write registers (see Table 10), the
parity of Bit D6 to Bit D0 is recalculated and compared to the
previously stored parity bit. The MSB of the 8-bit output is used
to indicate whether a configuration error has occurred. If the
MSB is returned high, this indicates that the data read back from
the device does not match the configuration data written to the
device in the previous write cycle.
Phase Lock Range
Set Resolution
In normal mode, the resolution of the digital output is selected
using the RES0 and RES1 input pins (see Table 9). In
configuration mode, the resolution is selected by setting the
RES0 and RES1 bits in the control register. When switching
between normal mode and configuration mode, it is the
responsibility of the user to ensure that the resolution set in the
control register matches the resolution set by the RES0 and RES1
input pins. The default resolution of the digital output on power-
The phase lock range allows the AD2S1210 to compensate for
up is 12 bits.
phase errors between the excitation frequency and the sine/cosine
inputs. The recommended mode of operation is to use the default
phase lock range of ±44°. If additional phase lock range is
required, a range of 360° can be set. However, in this mode of
operation, the AD2S1210 should be reset following a loss of
SOFTWARE RESET REGISTER
Table 24. 8-Bit Register
Address
Bit
0xF0
D7 to D0
Read/Write
Write only
signal error. Failure to do so may result in a 180° error in the
angular output data.
Addressing the software reset register, that is writing the 8-bit
address, 0xF0, of the software reset register to the AD2S1210
Hysteresis
The AD2S1210 includes a hysteresis function, ±1 LSB, between
the output of the position integrator and the input to the position
register. When operating in a noisy environment, this can be used
to prevent flicker on the LSB. On the AD2S1210, the maximum
tracking rate is defined by the bandwidth. Each resolution setting
is internally configured with a different bandwidth, as outlined
in Table 1. The maximum tracking rate and the bandwidth are
inversely proportional to the resolution, that is, the maximum
tracking rate increases as the resolution is decreased. The option
while in configuration mode, allows the user to initiate a soft-
ware reset of the AD2S1210. The software reset reinitializes the
excitation frequency outputs and the internal Type II tracking loop.
The data stored in the configuration registers is not overwritten
by a software reset. However, it should be noted that the data in
the fault register is reset. In an application that uses two or more
resolver-to-digital converters, which are both driven from the same
clock source, the software reset can be used to synchronize the
phase of the excitation frequencies across the converters.
FAULT REGISTER
of disabling the hysteresis allows the user to oversample the
position output and to achieve a higher resolution output within
the specified bandwidths through external averaging.
Table 25. 8-Bit Register
Address
Bit
0xFF
D7 to D0
Read/Write
Read only
The hysteresis function can be enabled or disabled through
setting Bit D4 in the control register. Hysteresis is enabled by
default on power-up.
Set Encoder Resolution
The AD2S1210 has the ability to detect eight separate fault condi-
tions. When a fault occurs, the DOS and/or the LOT output
pins are taken low. By reading the fault register, the user can
determine the cause of the triggering of the fault detection output
The resolution of the encoder outputs of the AD2S1210 can be
set to the same resolution as the digital output or it can also be
pins. Note that the fault register bits are active high, that is, the
fault bits are taken high to indicate that a fault has occurred.
set to a lower resolution. For example, when the resolution of
the AD2S1210 position outputs is set to 16 bits, the resolution
of the encoder outputs may be set to 14, 12, or 10 bits. This
allows the user to take advantage of the lower bandwidth and
improved performance of the 16-bit resolution setting without
requiring external divide down of the A-quad-B encoder outputs.
The default resolution of the encoder outputs on power-up is 16
bits. Refer to the Incremental Encoder Outputs section.
Table 26. Fault Register Bit Descriptions
Bit Description
D7 Sine/cosine inputs clipped
D6 Sine/cosine inputs below LOS threshold
D5 Sine/cosine inputs exceed DOS overrange threshold
D4 Sine/cosine inputs exceed DOS mismatch threshold
D3 Tracking error exceeds LOT threshold
D2 Velocity exceeds maximum tracking rate
D1 Phase error exceeds phase lock range
D0 Configuration parity error
Rev. 0 | Page 23 of 36
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