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DS1801DALLASN/a29avaiDual Audio Taper Potentiometer


DS1801 ,Dual Audio Taper PotentiometerPIN DESCRIPTION ZCEN 4 13 NCL0, L1 - Low End of Resistor NC 5 12 AGNDH0, H1 - Hig ..
DS1801E-014 ,Dual Audio Taper PotentiometerPIN DESCRIPTION ZCEN 4 13 NCL0, L1 - Low End of Resistor NC 5 12 AGNDH0, H1 - Hig ..
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DS1802 ,Dual Audio Taper Potentiometer with Pushbutton ControlPIN DESCRIPTION L0, L1 - Low End of Resistor H0, H1 - High End of Resistor W1,W2 - Wiper End o ..
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DS1801
Dual Audio Taper Potentiometer
FEATURESUltra-low power consumptionOperates from 3V or 5V suppliesTwo digitally controlled, 65-position
potentiometers including muteLogarithmic resistive characteristics (1 dB
per step)Zero-crossing detection eliminates noise
caused by wiper movementSerial port provides means for setting andreading both potentiometers wipers14-pin PDIP, 16-pin SOIC, and 14-pin
TSSOP packagesOperating Temperature Range:
- Industrial: -40°C to +85°CSoftware muteResistance available: 45 kΩ
PIN DESCRIPTION

L0, L1 -Low End of ResistorH0, H1 - High End of Resistor
W0,W1 - Wiper End of Resistor
VCC - 3V or 5V Power Supply Input
RST - Serial Port Reset Input- Serial Port Data Input
CLK - Serial Port Clock InputGND - Digital Ground
AGND - Analog Ground
ZCEN - Zero-Crossing Detect Input
COUT - Cascade Output
NC - No Connect
PIN ASSIGNMENT
DESCRIPTION
The DS1801 is a dual audio taper potentiometer having logarithmic resistive characteristics over the
device range. Each potentiometer provides 65 wiper positions with a 1 dB increment per step and device
mute. The 3-wire serial interface, using a CPU, provides the user the ability of reading or writing exact
wiper positions of the two potentiometers. Additionally, the part contains a zero-crossing detection
feature that minimizes noise resulting from wiper transitions. Packages for the part include a 14-pinPDIP, 16-pin SOIC, and 14-pin TSSOP.
DS1801
DS1801
OPERATION

The DS1801 provides two 65-position potentiometers per package, each having a logarithmic resistive
characteristic as shown in Table 1. The DS1801 is controlled by a 3-wire serial interface. The 3-wire
serial interface is designed for CPU-controlled applications and allows the potentiometer’s exact wiper
position to be read or written. The DS1801 design supports daisy-chaining for multi-device
environments.
Figure 1 presents a block diagram of the DS1801. As shown, the inputs from the 3-wire serial interfacedrive a command/control unit. The command/control unit interprets these inputs for control of the two
potentiometers.
On power-up, the serial port is stable and active within 10 microseconds. The wiper position on power-up
will be at position 63, the low end of the potentiometer. Position 64 is the mute level.
RESISTANCE CHARACTERISTICS Table 1
DS1801 BLOCK DIAGRAM Figure 1
DS1801
3-WIRE SERIAL INTERFACE CONTROL

Communication and control of the DS1801 is accomplished through a 3-wire serial port interface that
drives an internal control logic unit. The 3-wire serial interface is designed for microprocessor or
microcontroller applications. The interface consists of three input signals which include RST, CLK and
The RSTcontrol signal is used to enable 3-wire serial port write operations. The CLK terminal is a clock
signal input that provides synchronization for data I/O while the D signal input serves to transferpotentiometer wiper position settings to the device.
As shown in Figure 3, a 3-wire serial port operation begins with a transition of the RSTsignal input to a
high state. Once the 3-wire port has been activated, data is clocked into the part on the low to high
transition of the CLK signal input. Data input via the D line is transferred in the order of the desired
potentiometer-0 value followed by the potentiometer-1 value.
The DS1801 contains two 65-position potentiometers whose wiper positions are set by an 8-bit value.
These two 8-bit values are written to the 16-bit I/O shift register which is used to store wiper position
during powered conditions. Because the potentiometer has 65-positions, only 7 bits of data are needed to
set wiper position. A detailed diagram of the 16-bit I/O shift register is shown in Figure 2. Bits 0 through7 are reserved for the potentiometer-0 control while bits 8 through 15 are reserved for control of
potentiometer-1.
Bits 0 through 5 are used for actual wiper positioning of potentiometer-0. Bit 6 is used to mute
potentiometer-0. If this bit has value 1, the potentiometer-0 wiper will be connected to the low end of theresistive array the mute position. The value of bit 7 is a “don’t care” and will not affect operation of the
DS1801 or potentiometer-0.
Bits 8 through 13 are used for wiper positioning of potentiometer-1. Bit 14 is used for muting of the
potentiometer-1 wiper output. Bit 15, like bit 7, is a “don’t care” and will not affect operation of theDS1801.
Data for the DS1801 is transmitted LSB first starting with bit 0. A complete transmission of 16 bits of
data is required to insure proper setting of each potentiometer’s wiper. An incomplete transmission may
result in undesired wiper settings.
Once the complete 16 bits of information has been transmitted and the RSTsignal input transitions to a
low state, the new wiper positions are loaded into the part.
16-BIT I/O SHIFT REGISTER Figure 2
DS1801
TIMING DIAGRAMS Figure 3
DS1801
CASCADE OPERATION

A feature of the DS1801 is the ability to control multiple devices from a single processor. Multiple
DS1801s 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 DS1801, bit 0 of the I/O shift register will appear at the COUT output after a maximum delay
of 50 nanoseconds.
The COUT output of the DS1801 can be used to drive the D input of another DS1801. When connecting
multiple devices, the total number of bits sent is always 16 times the number of DS1801s in the daisy
chain.
An optional feedback resistor can be placed between the C OUT terminal of the last device and the D inputof the first DS1801 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 D line is left floating by the reading device.
When RSTis driven high, bit 0 is present on the COUT pin, which is fed back to the input D pin throughthe 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 COUT and D of the next device. After 16 bits (or 16
times the number of DS1801s in the daisy chain), the data has shifted completely around and back to its
original position. When RSTtransitions to the low state to end data transfer, the value (the same as before
the read occurred) is loaded into wiper-0 and wiper-1.
CASCADING MULTIPLE DEVICES Figure 4
Zero-Crossing Detection

The DS1801 provides a zero-crossing detection capability that minimizes any audible noise that may
result from sizable discrete wiper transitions when using the part in audio applications. The zero-crossing
detect feature allows independent wiper changes only when the two terminals of the potentiometer have
equal potentials and are within a 50 ms time window from the fall of the RSTsignal. If at 50 ms the
DS1801 has not detected a zero-crossing, the wiper position of the potentiometer(s) will change
regardless of the state of the input signal. Zero-crossing detection is activated when the ZCENinput level
is in a low-state. When high, the ZCENinput deactivates both the 50 ms time requirement and zerodetection crossing.
DS1801
TYPICAL SUPPLY CURRENT VS. SERIAL CLOCK RATE Figure 5
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