參數(shù)資料
型號(hào): ISL90841WIV1427
廠商: INTERSIL CORP
元件分類: 數(shù)字電位計(jì)
英文描述: Low Noise, Low Power I2C Bus, 256 Taps
中文描述: QUAD 10K DIGITAL POTENTIOMETER, 2-WIRE SERIAL CONTROL INTERFACE, 256 POSITIONS, PDSO14
封裝: PLASTIC, TSSOP-14
文件頁(yè)數(shù): 9/12頁(yè)
文件大?。?/td> 1126K
代理商: ISL90841WIV1427
9
FN8094.0
August 1, 2005
Principles of Operation
The ISL90841 is an integrated circuit incorporating four
DCPs with their associated registers, and an I
2
C serial
interface providing direct communication between a host
and the potentiometers.
DCP Description
Each DCP is implemented with a combination of resistor
elements and CMOS switches. The physical ends of each
DCP are equivalent to the fixed terminals of a mechanical
potentiometer (R
H
and GND). The R
W
pin of each DCP is
connected to intermediate nodes, and is equivalent to the
wiper terminal of a mechanical potentiometer. The position
of the wiper terminal within the DCP is controlled by an 8-bit
volatile Wiper Register (WR). Each DCP has its own WR.
When the WR of a DCP contains all zeroes (WR<7:0>: 00h),
its wiper terminal (R
W
) is closest to its “Low” terminal (GND).
When the WR of a DCP contains all ones (WR<7:0>: FFh),
its wiper terminal (R
W
) is closest to its “High” terminal (R
H
).
As the value of the WR increases from all zeroes (00h) to all
ones (255 decimal), the wiper moves monotonically from the
position closest to GND to the closest to R
H
. At the same
time, the resistance between R
W
and GND increases
monotonically, while the resistance between R
H
and R
W
decreases monotonically.
While the ISL90841 is being powered up, all four WRs are
reset to 80h (128 decimal), which locates R
W
roughly at the
center between GND and R
H
.
The WRs can be read or written directly using the I
2
C serial
interface as described in the following sections. The I
2
C
interface Address Byte has to be set to 00h, 01h, 02h, and
03h to access the WR of DCP0, DCP1, DCP2, and DCP3
respectively
I
2
C Serial Interface
The ISL90841 supports a bidirectional bus oriented protocol.
The protocol defines any device that sends data onto the
bus as a transmitter and the receiving device as the receiver.
The device controlling the transfer is a master and the
device being controlled is the slave. The master always
initiates data transfers and provides the clock for both
transmit and receive operations. Therefore, the ISL90841
operates as a slave device in all applications.
All communication over the I
2
C interface is conducted by
sending the MSB of each byte of data first.
Protocol Conventions
Data states on the SDA line must change only during SCL
LOW periods. SDA state changes during SCL HIGH are
reserved for indicating START and STOP conditions (See
Figure 15). On power-up of the ISL90841 the SDA pin is in
the input mode.
All I
2
C interface operations must begin with a START
condition, which is a HIGH to LOW transition of SDA while
SCL is HIGH. The ISL90841 continuously monitors the SDA
and SCL lines for the START condition and does not
respond to any command until this condition is met (See
Figure 15). A START condition is ignored during the power-
up of the device.
All I
2
C interface operations must be terminated by a STOP
condition, which is a LOW to HIGH transition of SDA while
SCL is HIGH (See Figure 15). A STOP condition at the end
of a read operation, or at the end of a write operation places
the device in its standby mode.
An ACK, Acknowledge, is a software convention used to
indicate a successful data transfer. The transmitting device,
either master or slave, releases the SDA bus after
transmitting eight bits. During the ninth clock cycle, the
receiver pulls the SDA line LOW to acknowledge the
reception of the eight bits of data (See Figure 16).
The ISL90841 responds with an ACK after recognition of a
START condition followed by a valid Identification Byte, and
once again after successful receipt of an Address Byte. The
ISL90841 also responds with an ACK after receiving a Data
Byte of a write operation. The master must respond with an
ACK after receiving a Data Byte of a read operation
A valid Identification Byte contains 0101 as the four MSBs,
and the following three bits matching the logic values
present at pins A1 and A0. The LSB is the Read/Write bit. Its
value is “1” for a Read operation, and “0” for a Write
operation (See Table 1).
TABLE 1. IDENTIFICATION BYTE FORMAT
Logic values at pins A1 and A0 respectively
0
1
0
1
0
A1
A0
R/W
(MSB)
(LSB)
ISL90841
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