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DS1868 Datasheet(PDF) 5 Page - Dallas Semiconductor

Part No. DS1868
Description  Dual Digital Potentiometer Chip
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Manufacturer  DALLAS [Dallas Semiconductor]
Direct Link  https://www.maximintegrated.com/en.html
Logo DALLAS - Dallas Semiconductor

DS1868 Datasheet(HTML) 5 Page - Dallas Semiconductor

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A feature of the DS1868 is the ability to control multiple devices from a single processor. Multiple
DS1868s can be linked or daisy chained as shown in Figure 4. As a data bit is entered into the I/O shift
register of the DS1868 a bit will appear at the COUT output after a minimum delay of 50 nanoseconds. The
stack select bit of the DS1868 will always be the first out the part at the beginning of a transaction. The
COUT pin will always have the value of the stack select bit (b0) when RST is inactive.
The COUT output of the DS1868 can be used to drive the DQ input of another DS1868. When connecting
multiple devices, the total number of bits transmitted is always 17 times the number of DS1868s in the
daisy chain.
An optional feedback resistor can be placed between the COUT terminal of the last device and the first
DS1868 DQ, input thus allowing the controlling processor to read, as well as, write data, or circularly
clock data through the daisy chain. The value of the feedback or isolation resistor should be in the range
from 2 to 10 kohms.
When reading data via the COUT pin and isolation resistor, the DQ line is left floating by the reading
device. When RST is driven high, bit 17 is present on the COUT pin, which is fed back to the input DQ
pin through the isolation resistor. When the CLK input transitions low to high, bit 17 is loaded into the
first position of the I/O shift register and bit 16 becomes present on COUT and DQ of the next device. After
17 bits (or 17 times the number of DS1868s in the daisy chain), the data has shifted completely around
and back to its original position. When RST transitions to the low state to end data transfer, the value (the
same as before the read occurred) is loaded into the wiper-0, wiper-1, and stack select bit I/O register.

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