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ISL22349UFV14Z データシート(PDF) 9 Page - Intersil Corporation

部品番号 ISL22349UFV14Z
部品情報  Quad Digitally Controlled Potentiometers
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メーカー  INTERSIL [Intersil Corporation]
ホームページ  http://www.intersil.com/cda/home
Logo INTERSIL - Intersil Corporation

ISL22349UFV14Z データシート(HTML) 9 Page - Intersil Corporation

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9
FN6331.2
September 15, 2006
Bus Interface Pins
Serial Data Input/Output (SDA)
The SDA is a bidirectional serial data input/output pin for I2C
interface. It receives device address, operation code, wiper
address and data from an I2C external master device at the
rising edge of the serial clock SCL, and it shifts out data after
each falling edge of the serial clock.
SDA requires an external pull-up resistor, since it is an open
drain input/output.
Serial Clock (SCL)
This is the serial clock input of the I2C serial interface. SCL
requires an external pull-up resistor, since it is an open drain
input.
Device Address (A2 - A0)
The address inputs are used to set the least significant 3 bits
of the 7-bit I2C interface slave address. A match in the slave
address serial data stream must match with the Address
input pins in order to initiate communication with the
ISL22349. A maximum of 8 ISL22349 devices may occupy
the I2C serial bus.
Principles of Operation
The ISL22349 is an integrated circuit incorporating four
DCPs with their associated registers, non-volatile memory
and an I2C serial interface providing direct communication
between a host and the potentiometers and memory. The
resistor arrays are comprised of individual resistors
connected in series. At either end of the array and between
each resistor is an electronic switch that transfers the
potential at that point to the wiper.
The electronic switches on the device operate in a “make
before break” mode when the wiper changes tap positions.
When the device is powered down, the last value stored in
IVRi will be maintained in the non-volatile memory. When
power is restored, the contents of the IVRi are recalled and
loaded into the corresponding WRi to set the wipers to the
initial value.
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 and internally connected to Vcc and GND.
The RW 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 volatile Wiper Register (WR).
Each DCP has its own WR. When the WR of a DCP contains
all zeroes (WR[6:0] = 00h), its wiper terminal (RW) is closest
to GND. When the WR register of a DCP contains all ones
(WR[6:0] = 7Fh), its wiper terminal (RW) is closest to VCC.
As the value of the WR increases from all zeroes (0) to all
ones (127 decimal), the wiper moves monotonically from the
position closest to GND to the closest to VCC.
While the ISL22349 is being powered up, all four WRs are
reset to 40h (64 decimal), which locates RW roughly at the
center between GND and VCC. After the power supply
voltage becomes large enough for reliable non-volatile
memory reading, all WRs will be reload with the value stored
in corresponding non-volatile Initial Value Registers (IVRs).
The WRs can be read or written to directly using the I2C
serial interface as described in the following sections. The
I2C interface Address Byte has to be set to 00h, 01h, 02h or
03h to access the WR of DCP0, DCP1, DCP2 or DCP3
respectively.
Memory Description
The ISL22349 contains seven non-volatile and five volatile
8-bit registers. The memory map of ISL22349 is on Table 1.
The four non-volatile registers (IVRi) at address 0, 1, 2 and
3, contain initial wiper value and volatile registers (WRi)
contain current wiper position. In addition, three non-volatile
General Purpose registers from address 4 to address 6 are
available.
The non-volatile IVRi and volatile WRi registers are
accessible with the same address.
The Access Control Register (ACR) contains information
and control bits described below in Table 2. The VOL bit at
access control register (ACR[7]) determines whether the
access is to wiper registers WRi or initial value registers
IVRi.
If VOL bit is 0, the non-volatile IVRi registers are accessible.
If VOL bit is 1, only the volatile WRi are accessible. Note,
value is written to IVRi register also is written to the
corresponding WRi. The default value of this bit is 0.
The SHDN bit (ACR[6]) disables or enables Shutdown
mode. This bit is logically OR’d with SHDN pin. When this bit
is 0, DCPs are in Shutdown mode. Default value of SHDN bit
is 1.
TABLE 1. MEMORY MAP
ADDRESS
NON-VOLATILE
VOLATILE
8—
ACR
7
Reserved
6
5
4
General Purpose
General Purpose
General Purpose
Not Available
Not Available
Not Available
3
2
1
0
IVR3
IVR2
IVR1
IVR0
WR3
WR2
WR1
WR0
TABLE 2. ACCESS CONTROL REGISTER (ACR)
VOL
SHDN
WIP
00000
ISL22349


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