DS1800 Dallas Semiconducotr, DS1800 Datasheet - Page 6

DS1800

Manufacturer Part Number

DS1800

Description

Dual Inverting Log Gain/Attenuator

Manufacturer

Dallas Semiconducotr

Datasheet

1.DS1800.pdf (14 pages)

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DS1800

MUTE CONTROL

The DS1800 provides a mute control feature which can be accessed by the user through hardware or

software. Hardware control of the device is achieved through the MUTE input pin. This pin is internally

pulled up through a 50 k

resistor and functions like the PxG and PxA pushbutton controls. When this

input is driven low, the wiper outputs of both potentiometers will be internally connected to the OUTx

terminal of their respective potentiometers. This input performs as a toggle input, with the first activity

on this pin connecting the wiper terminals to the OUTx terminals (position 128) of the potentiometer.

The next input activity on this pin will return the wiper position to the previous state before muting

occurred.

Also, if operating in pushbutton mode, MUTE will be deactivated if an input is received over any push–

button input. This input, like the pushbutton inputs, is internally debounced and requires no external

circuitry. When the device powers up, the first activity on the mute pin will move the wipers to position

128 or the OUTx end of the potentiometer(s).

Software muting was discussed in the 3–wire serial control section. Bits 7 and 15 are reserved for muting

each respective potentiometer. If these bits have value 1, the wiper positions of the pot will be transferred

to the mute position. Unlike hardware mute control, software muting allows the user individual control of

each potentiometer. Additionally, the software mute requires that the complete wiper position setting be

rewritten to establish a non-muted position. Note that bits 7 and 15 of the I/O shift register must have

value 0 to release the software mute position.

CASCADE OPERATION

A feature of the DS1800 is the ability to control multiple devices from a single processor. Multiple

DS1800’s can be linked or daisy-chained as shown in Figure 8. As a data bit is entered into the I/O shift

output after a maximum delay of 50

OUT

nanoseconds.

The C

output of the DS1800 can be used to drive the D input of another DS1800. When connecting

OUT

multiple devices, the total number of bits sent is always 16 times the number of DS1800’s is the daisy

chain.

An optional feedback resistor can be placed between the C

terminal of the last device and the D input

OUT

of the first DS1800, thus allowing the controlling processor to circularly clock data through the daisy

chain. The value of the feedback or isolation resistor should be in the range from 2 k =to 20 k .

When reading data via the C

pin and the isolation resistor, the D input is left floating by the reading

OUT

device. When

is driven high, bit 0 is present on the C

pin, which is fed back to the D pin through

RST

OUT

the isolation resistor. When the CLK input transitions low to high, bit 0 is loaded into the first position of

the I/O shift register and bit 1 becomes present on C

and D of the next device. After 16 bits (or 16

OUT

times the number of DS1800s in the daisy chain), the data has shifted completely around and back to its

original position. When

transitions to the low state to end data transfer, the value (the same as before

RST

the read occurred is loaded into the wiper–0 and wiper–1 registers.

DS1800 Dallas Semiconducotr, DS1800 Datasheet - Page 6

DS1800

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