X9258UB24I-2.7T1
更新时间:2024-09-18 14:19:14
品牌:XICOR
描述:Digital Potentiometer, 4 Func, 50000ohm, 2-wire Serial Control Interface, 256 Positions, CMOS, BUMP, CSP-24
X9258UB24I-2.7T1 概述
Digital Potentiometer, 4 Func, 50000ohm, 2-wire Serial Control Interface, 256 Positions, CMOS, BUMP, CSP-24 数字电位计
X9258UB24I-2.7T1 规格参数
生命周期: | Transferred | 包装说明: | BUMP, CSP-24 |
Reach Compliance Code: | unknown | 风险等级: | 5.64 |
Is Samacsys: | N | 其他特性: | NONVOLATILE MEMORY |
控制接口: | 2-WIRE SERIAL | 转换器类型: | DIGITAL POTENTIOMETER |
JESD-30 代码: | R-XBGA-B24 | 长度: | 4.579 mm |
功能数量: | 4 | 位置数: | 256 |
端子数量: | 24 | 最高工作温度: | 85 °C |
最低工作温度: | -40 °C | 封装主体材料: | UNSPECIFIED |
封装代码: | VFBGA | 封装形状: | RECTANGULAR |
封装形式: | GRID ARRAY, VERY THIN PROFILE, FINE PITCH | 认证状态: | Not Qualified |
电阻定律: | LINEAR | 最大电阻容差: | 20% |
最大电阻器端电压: | 5.5 V | 最小电阻器端电压: | -5.5 V |
座面最大高度: | 0.71 mm | 表面贴装: | YES |
技术: | CMOS | 标称温度系数: | 300 ppm/°C |
温度等级: | INDUSTRIAL | 端子形式: | BALL |
端子节距: | 0.5 mm | 端子位置: | BOTTOM |
标称总电阻: | 50000 Ω | 宽度: | 2.801 mm |
Base Number Matches: | 1 |
X9258UB24I-2.7T1 数据手册
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PDF下载APPLICATION NOTES
A V A I L A B L E
AN99 • AN115 • AN120 • AN124 • AN133 • AN134 • AN135
Low Noise/Low Power/2-Wire Bus/256 Taps
X9258
Quad Digital Controlled Potentiometers (XDCP™)
FEATURES
DESCRIPTION
• Four potentiometers in one package
• 256 resistor taps/pot–0.4% resolution
• 2-wire serial interface
The X9258 integrates
potentiometers (XDCP) on a monolithic CMOS
integrated circuit.
4
digitally controlled
• Wiper resistance, 40Ω typical @ V+ = 5V, V- = -5V
• Four nonvolatile data registers for each pot
• Nonvolatile storage of wiper position
• Standby current < 5µA max (total package)
• Power supplies
The digitally controlled potentiometer is implemented
using 255 resistive elements in a series array.
Between each element are tap points connected to the
wiper terminal through switches. The position of the
wiper on the array is controlled by the user through the
2-wire bus interface. Each potentiometer has
associated with it a volatile Wiper Counter Register
(WCR) and 4 nonvolatile Data Registers (DR0:DR3)
that can be directly written to and read by the user.
The contents of the WCR controls the position of the
wiper on the resistor array though the switches. Power
up recalls the contents of DR0 to the WCR.
—V
= 2.7V to 5.5V
CC
—V+ = 2.7V to 5.5V
—V- = -2.7V to -5.5V
• 100KΩ, 50KΩ total pot resistance
• High reliability
—Endurance – 100,000 data changes per bit per
register
—Register data retention – 100 years
• 24-lead SOIC, 24-lead TSSOP, 24-lead CSP (Chip
Scale Package)
The XDCP can be used as a three-terminal
potentiometer or as a two-terminal variable resistor in
a wide variety of applications including control,
parameter adjustments, and signal processing.
• Dual supply version of X9259
BLOCK DIAGRAM
Pot 0
V
V
CC
SS
R
R
R
R
V /R
H0 H0
R
R
R
R
0
2
1
3
0
2
1
3
Wiper
Counter
Register
(WCR)
Wiper
Counter
Register
(WCR)
V
/R
H2 H2
Resistor
Array
Pot 2
V+
V-
V
/R
L0 L0
WP
V
/R
L2 L2
V
/R
SCL
SDA
A0
A1
A2
W0 W0
V
/R
W2 W2
Interface
and
Control
8
Circuitry
V
/R
A3
W1 W1
Data
V
V
/R
W3 W3
R
R
R
R
0
2
1
3
V
/R
R
R
R
R
H1 H1
Wiper
Counter
Register
(WCR)
0
2
1
3
/R
Wiper
Counter
Register
(WCR)
Resistor
Array
Pot 1
H3 H3
Resistor
Array
Pot 3
V
/R
L1 L1
V
/R
L3 L3
Characteristics subject to change without notice. 1 of 22
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X9258
PIN DESCRIPTIONS
Host Interface Pins
SERIAL CLOCK (SCL)
PIN CONFIGURATION
SOIC/TSSOP
A3
NC
A0
1
2
24
23
22
21
20
19
18
17
16
SCL
The SCL input is used to clock data into and out of the
X9258.
V
/R
V
V
V
/R
W3 W3
3
L2 L2
V
/R
/R
H3 H3
4
H2 H2
V
/R
/R
5
L3 L3
W2 W2
SERIAL DATA (SDA)
V–
V
V+
6
SDA is a bidirectional pin used to transfer data into
and out of the device. It is an open drain output and
may be wire-ORed with any number of open drain or
open collector outputs. An open drain output requires
the use of a pull-up resistor. For selecting typical
values, refer to the guidelines for calculating typical
values on the bus pull-up resistors graph.
X9258
V
7
CC
SS
V
V
V
/R
V
/R
8
W1 W1
L0 L0
V
/R
/R
H0 H0
9
H1 H1
V
/R
/R
W0 W0
10
11
12
15
14
L1 L1
A1
A2
WP
13
SDA
DEVICE ADDRESS (A –A )
0
3
CSP
The Address inputs are used to set the least
significant 4 bits of the 8-bit slave address. A match in
the slave address serial data stream must be made
with the address input in order to initiate
communication with the X9258. A maximum of 16
devices may occupy the 2-wire serial bus.
1
2
3
4
A
R
A
R
1
W0
2
L1
A
B
WP
SDA
R
R
W1
SS
L0
Potentiometer Pins
V
R
R
R
H1
V
CC
H0
H3
C
D
V /R (V /R –V /R ), V /R (V /R –V /R )
L0 L0 L3 L3
H
H
H0 H0 H3 H3
L
L
R
V+
H2
V-
The V /R and V /R inputs are equivalent to the
H
H
L
L
terminal connections on either end of a mechanical
potentiometer.
R
NC
A
R
W2
L3
3
E
F
V /R (V /R –V /R )
W0 W0 W3 W3
W
W
R
A
SCL
R
L2
W3
0
The wiper outputs are equivalent to the wiper output of
a mechanical potentiometer.
Top View–Bumps Down
Hardware Write Protect Input (WP)
The WP pin when low prevents nonvolatile writes to
the Data Registers.
Analog Supplies V+, V-
The Analog Supplies V+, V- are the supply voltages
for the DCP analog section.
Characteristics subject to change without notice. 2 of 22
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X9258
PIN NAMES
Stop Condition
All communications must be terminated by a stop
condition, which is a LOW to HIGH transition of SDA
while SCL is HIGH.
Symbol
Description
Serial Clock
SCL
SDA
A0-A3
Serial Data
Acknowledge
Device Address
Acknowledge is a software convention used to provide
a positive handshake between the master and slave
devices on the bus to indicate the successful receipt of
data. The transmitting device, either the master or the
slave, will release the SDA bus after transmitting eight
bits. The master generates a ninth clock cycle and
during this period the receiver pulls the SDA line LOW
to acknowledge that it successfully received the eight
bits of data.
V
V
/R –V /R
,
Potentiometer Pins
(terminal equivalent)
H0 H0 H3 H3
/R –V /R
L0 L0 L3 L3
V
/R –V /R
Potentiometers Pins
(wiper equivalent)
W0 W0 W3 W3
WP
Hardware Write Protection
Analog Supplies
V+,V-
V
V
System Supply Voltage
System Ground
CC
SS
The X9258 will respond with an acknowledge after
recognition of a start condition and its slave address
and once again after successful receipt of the
command byte. If the command is followed by a data
byte the X9258 will respond with a final acknowledge.
NC
No Connection (Allowed)
PRINCIPLES OF OPERATION
The X9258 is highly integrated microcircuit
incorporating four resistor arrays and their associated
registers and counters and the serial interface logic
providing direct communication between the host and
the DCP potentiometers.
a
Array Description
The X9258 is comprised of four resistor arrays. Each
array contains 255 discrete resistive segments that are
connected in series. The physical ends of each array
are equivalent to the fixed terminals of a mechanical
Serial Interface—2-Wire
The X9258 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 will always initiate data transfers
and provide the clock for both transmit and receive
operations. Therefore, the X9258 will be considered a
slave device in all applications.
potentiometer (V /R and V /R inputs).
H
H
L
L
At both ends of each array and between each resistor
segment is a CMOS switch connected to the wiper
(V ) output. Within each individual array only one
W
switch may be turned on at a time. These switches are
controlled by the Wiper Counter Register (WCR). The
8 bits of the WCR are decoded to select, and enable,
one of 256 switches.
The WCR may be written directly, or it can be changed
by transferring the contents of one of four associated
data registers into the WCR. These data registers and
the WCR can be read and written by the host system.
Clock and Data Conventions
Data states on the SDA line can change only during
SCL LOW periods (t
). SDA state changes during
LOW
SCL HIGH are reserved for indicating start and stop
conditions.
Device Addressing
Following a start condition the master must output the
address of the slave it is accessing. The most
significant four bits of the slave address are the device
type identifier (refer to Figure 1 below). For the X9258
this is fixed as 0101[B].
Start Condition
All commands to the X9258 are preceded by the start
condition, which is a HIGH to LOW transition of SDA
while SCL is HIGH (t
). The X9258 continuously
HIGH
monitors the SDA and SCL lines for the start condition
and will not respond to any command until this
condition is met.
Characteristics subject to change without notice. 3 of 22
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X9258
Figure 1. Slave Address
ACK Polling Sequence
Device Type
Identifier
Nonvolatile Write
Command Completed
EnterACK Polling
0
1
0
1
A3
A2
A1
A0
Issue
START
Device Address
The next four bits of the slave address are the device
address. The physical device address is defined by the
state of the A0-A3 inputs. The X9258 compares the
serial data stream with the address input state; a
successful compare of all four address bits is required
for the X9258 to respond with an acknowledge. The
Issue Slave
Address
Issue STOP
ACK
Returned?
No
A –A inputs can be actively driven by CMOS input
0
3
Yes
signals or tied to V or V
.
CC
SS
Further
Operation?
No
Acknowledge Polling
The disabling of the inputs, during the internal
nonvolatile write operation, can be used to take
advantage of the typical 5ms nonvolatile write cycle
time. Once the stop condition is issued to indicate the
end of the nonvolatile write command the X9258
initiates the internal write cycle. ACK polling can be
initiated immediately. This involves issuing the start
condition followed by the device slave address. If the
X9258 is still busy with the write operation no ACK will
be returned. If the X9258 has completed the write
operation an ACK will be returned and the master can
then proceed with the next operation.
Yes
Issue
Instruction
Issue STOP
Proceed
Proceed
Instruction Structure
The next byte sent to the X9258 contains the
instruction and register pointer information. The four
most significant bits are the instruction. The next four
bits point to one of the two pots and when applicable
they point to one of four associated registers. The
format is shown below in Figure 2.
Characteristics subject to change without notice. 4 of 22
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X9258
Figure 2. Instruction Byte Format
RAM. The response of the wiper to this action will be
delayed t . A transfer from the Wiper Counter
Register (current wiper position), to a data register is a
write to nonvolatile memory and takes a minimum of
WRL
Register
Select
t
to complete.The transfer can occur between one of
WR
the four potentiometers and one of its associated
registers; or it may occur globally, wherein the transfer
occurs between all of the potentiometers and one of
their associated registers.
I3
I2
I1
I0
R1 R0
P1 P0
Wiper Counter
Register Select
Instructions
Four instructions require a three-byte sequence to
complete. These instructions transfer data between the
host and the X9258; either between the host and one of
the data registers or directly between the host and the
Wiper Counter Register. These instructions are: Read
Wiper Counter Register (read the current wiper position
of the selected pot), Write Wiper Counter Register
(change current wiper position of the selected pot),
Read Data Register (read the contents of the selected
nonvolatile register) and Write Data Register (write a
new value to the selected data register). The sequence
of operations is shown in Figure 4.
The four high order bits define the instruction. The next
two bits (R1 and R0) select one of the four registers that
is to be acted upon when a register oriented instruction
is issued. The last bits (P1, P0) select which one of the
four potentiometers is to be affected by the instruction.
Four of the nine instructions end with the transmission
of the instruction byte. The basic sequence is illustrated
in Figure 3. These two-byte instructions exchange data
between the Wiper Counter Register and one of the
data registers. A transfer from a Data Register to a
Wiper Counter Register is essentially a write to a static
Figure 3. Two-Byte Instruction Sequence
SCL
SDA
S
T
A
R
T
0
1
0
1
A3 A2 A1 A0
A
C
K
I3 I2
I1 I0 R1 R0 P1 P0
A
C
K
S
T
O
P
The Increment/Decrement command is different from
the other commands. Once the command is issued and
the X9258 has responded with an acknowledge, the
master can clock the selected wiper up and/or down in
one segment steps; thereby, providing a fine tuning
resistor segment towards the V terminal. Similarly, for
each SCL clock pulse while SDA is LOW, the selected
H
wiper will move one resistor segment towards the V /R
L
L
terminal. A detailed illustration of the sequence and
timing for this operation are shown in Figures 5 and 6
respectively.
capability to the host. For each SCL clock pulse (t
)
HIGH
while SDA is HIGH, the selected wiper will move one
Characteristics subject to change without notice. 5 of 22
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X9258
Table 1. Instruction Set
Instruction Set
Instruction
I
I
I
I
R
R
P
P
Operation
1/0 1/0 Read the contents of the Wiper Counter Regis-
ter pointed to by P –P
3
2
1
0
1
0
1
0
Read Wiper Counter
Register
1
1
1
1
1
0
0
0
1
1
0
1
1
0
0
1
0
1
0
1
0
0
1
0
Write Wiper Counter
Register
0
0
1/0 1/0 Write new value to the Wiper Counter Register
pointed to by P –P
1
0
Read Data Register
1/0 1/0 1/0 1/0 Read the contents of the Data Register pointed
to by P –P and R –R
1
0
1
0
Write Data Register
1/0 1/0 1/0 1/0 Write new value to the Data Register pointed to
by P –P and R –R
1
0
1
0
XFR Data Register to
Wiper Counter Regis-
ter
1/0 1/0 1/0 1/0 Transfer the contents of the Data Register point-
ed to by P –P and R –R to its associated Wip-
er Counter Register
1/0 1/0 1/0 1/0 Transfer the contents of the Wiper Counter Reg-
ister pointed to by P –P to the Data Register
1
0
1
0
XFR Wiper Counter
Register to Data
Register
1
0
1
0
1
0
0
0
1
0
0
1
0
1
0
0
1
0
0
pointed to by R –R
1
Global XFR Data
Registers to Wiper
Counter Registers
1/0 1/0
1/0 1/0
0
0
0
0
Transfer the contents of the Data Registers
pointed to by R –R of all four pots to their re-
1
0
spective Wiper Counter Registers
Global XFR Wiper
Counter Registers
to Data Register
Transfer the contents of both Wiper Counter
Registers to their respective data Registers
pointed to by R –R of all four pots
1
0
Increment/Decrement
Wiper Counter Regis-
ter
0
0
1/0 1/0 Enable Increment/decrement of the Control
Latch pointed to by P –P
1
0
Note: (1) 1/0 = data is one or zero
Figure 4. Three-Byte Instruction Sequence
SCL
SDA
S
T
A
R
T
0
1
0
1
A3 A2 A1 A0
A
C
K
I3 I2
I1 I0 R1 R0 P1 P0
A
C
K
D7 D6 D5 D4 D3 D2 D1 D0
A
C
K
S
T
O
P
Characteristics subject to change without notice. 6 of 22
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X9258
Figure 5. Increment/Decrement Instruction Sequence
F
SCL
SDA
S
T
A
R
T
0
1
0
1
A3 A2 A1 A0
A
C
K
I3 I2
I1 I0 R1 R0 P1 P0
A
C
K
I
I
D
E
C
1
S
T
I
D
E
C
n
N
C
1
N
C
2
N
C
n
O
P
Figure 6. Increment/Decrement Timing Limits
INC/DEC
CMD
Issued
t
WRID
SCL
SDA
Voltage Out
V
/R
W
W
Figure 7. Acknowledge Response from Receiver
SCL from
Master
1
8
9
Data Output
from Transmitter
Data Output
from Receiver
START
Acknowledge
Characteristics subject to change without notice. 7 of 22
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X9258
Figure 8. Detailed Potentiometer Block Diagram Detailed Operation
Serial Data Path
V /R
H H
Serial
BUS
Input
From Interface
Circuitry
C
o
u
n
t
Register 0
Register 2
Register 1
Register 3
8
8
Parallel
BUS
Input
e
r
Wiper
D
e
c
o
d
e
Counter
Register
(WCR)
INC/DEC
Logic
If WCR = 00[H] then V /R = V /R
W
W
L
L
UP/DN
UP/DN
If WCR = FF[H] then V /R = V /R
H
W
W
H
V /R
L
L
Modified SCL
CLK
V
/R
W
W
All DCP potentiometers share the serial interface and
share a common architecture. Each potentiometer has
a Wiper Counter Register and four Data Registers. A
detailed discussion of the register organization and
array operation follows.
The WCR is a volatile register; that is, its contents are
lost when the X9258 is powered-down. Although the
register is automatically loaded with the value in R0
upon power-up, it should be noted this may be
different from the value present at power-down.
Wiper Counter Register
Data Registers
The X9258 contains four Wiper Counter Registers,
one for each DCP potentiometer. The Wiper Counter
Register can be envisioned as a 8-bit parallel and
serial load counter with its outputs decoded to select
one of 256 switches along its resistor array. The
contents of the WCR can be altered in four ways: it
may be written directly by the host via the Write Wiper
Counter Register instruction (serial load); it may be
written indirectly by transferring the contents of one of
four associated Data Registers via the XFR Data
Register instruction (parallel load); it can be modified
one step at a time by the Increment/Decrement
instruction. Finally, it is loaded with the contents of its
data register zero (R0) upon power-up.
Each potentiometer has four nonvolatile Data
Registers. These can be read or written directly by the
host and data can be transferred between any of the
four Data Registers and the WCR. It should be noted
all operations changing data in one of these registers
is a nonvolatile operation and will take a maximum of
10ms.
If the application does not require storage of multiple
settings for the potentiometer, these registers can be
used as regular memory locations that could possibly
store system parameters or user preference data.
Characteristics subject to change without notice. 8 of 22
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X9258
REGISTER DESCRIPTIONS
Wiper Counter Register, (8-Bit), Volatile
WP7 WP6 WP5 WP4 WP3 WP2 WP1 WP0
Data Registers, (8-Bit), Nonvolatile
V
V
V
V
V
V
V
V
WP7 WP6 WP5 WP4 WP3 WP2 WP1 WP0
(MSB)
(LSB)
NV
NV
NV
NV
NV
NV
NV
NV
(MSB)
(LSB)
One 8-bit Wiper Counter Register for each DCP. (Four
8-bit registers in total.)
Four 8-bit Data Registers for each DCP. (sixteen 8-bit
registers in total).
– {D7~D0}: These bits specify the wiper position of the
respective DCP. The Wiper Counter Register is
loaded on power-up by the value in Data Register 0.
The contents of the WCR can be loaded from any of
the other Data Register or directly. The contents of
the WCR can be saved in a DR.
– {D7~D0}: These bits are for general purpose not
volatile data storage or for storage of up to four
different wiper values. The contents of Data Register
0 are automatically moved to the wiper counter
register on power-up.
Instruction Format
Notes: (1) “MACK”/”SACK”: stands for the acknowledge sent by the master/slave.
(2) “A3 ~ A0”: stands for the device addresses sent by the master.
(3) “X”: indicates that it is a “0” for testing purpose but physically it is a “don’t care” condition.
(4) “I”: stands for the increment operation, SDA held high during active SCL phase (high).
(5) “D”: stands for the decrement operation, SDA held low during active SCL phase (high).
Read Wiper Counter Register (WCR)
S device type
device
addresses
instruction
opcode
WCR
addresses
wiper position
(sent by slave on SDA)
S
A
C
K
S
A
C
K
M S
A T
C O
K P
T
A
R
T
identifier
W W W W W W W W
P P P P P P P P
A A A A
P P
1 0
0
1
0
1
1 0 0 1 0 0
3
2
1
0
7
6 5 4 3 2 1 0
Write Wiper Counter Register (WCR)
S device type
device
addresses
instruction
opcode
WCR
addresses
Data Byte
(sent by master on SDA)
S
A
C
K
S
A
C
K
S S
A T
C O
K P
T
A
R
T
identifier
W W W W W W W W
P P P P P P P P
A A A A
P P
1 0
0
1
0
1
1 0 1 0 0 0
3
2
1
0
7
6 5 4 3 2 1 0
Read Data Register (DR)
S device type device
instruction DR and WCR
Data Byte
(sent by slave on SDA)
S
A
C
K
S
A
C
K
M S
T
A
R
T
identifier
addresses
opcode
addresses
A T
C O
K P
W W W W W W W W
P P P P P P P P
A A A A
R
1
R
0
P
1
P
0
0
1
0
1
1 0 1 1
3
2 1 0
7
6 5 4 3 2 1 0
Characteristics subject to change without notice. 9 of 22
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X9258
Write Data Register (WR)
S device type
device
addresses
instruction DR and WCR
Data Byte
(sent by master on SDA)
S
A
C
K
S
A
C
K
S S
T
A
R
T
identifier
opcode
addresses
A T HIGH-VOLTAGE
C O WRITE CYCLE
K P
W W W W W W W W
P P P P P P P P
A A A A
R
1
R
0
P
1
P
0
0
1
0
1
1 1 0 0
3
2 1 0
7
6 5 4 3 2 1 0
XFR Data Register (DR) to Wiper Counter Register (WCR)
S device type
device
addresses
instruction DR and WCR
S
A
C
K
S S
A T
C O
K P
T
A
R
T
identifier
opcode
addresses
A A A A
R
1
R
0
P
1
P
0
0
1
0
1
1 1 0 1
3
2 1 0
XFR Wiper Counter Register (WCR) to Data Register (DR)
S device type
device
addresses
instruction DR and WCR
S
A
C
K
S S
T
A
R
T
identifier
opcode
addresses
A T HIGH-VOLTAGE
C O WRITE CYCLE
K P
A A A A
R
1
R
0
P
1
P
0
0
1
0
1
1 1 1 0
3
2 1 0
Increment/Decrement Wiper Counter Register (WCR)
S
T
A
R
T
device type
identifier
device
addresses
instruction
opcode
WCR
addresses
increment/decrement
(sent by master on SDA)
S
A
C
K
S
A
C
K
S
T
O
P
A A A A
P
P
0
I/ I/
D D
I/ I/
D D
0
1
0
1
0
0
1
0
0
0
1
.
.
.
.
3
2 1 0
Global XFR Data Register (DR) to Wiper Counter Register (WCR)
S
T
A
R
T
device type
identifier
device
addresses
instruction
opcode
DR
addresses
S
A
C
K
S S
A
T
C O
K P
A A A A
R R
1 0
0
1
0
1
0
0
0
1
0 0
3
2
1
0
Global XFR Wiper Counter Register (WCR) to Data Register (DR)
S device type
device
addresses
instruction
opcode
DR
addresses
S
A
C
K
S S
A T
C O
K P
T
A
R
T
identifier
HIGH-VOLTAGE
WRITE CYCLE
A A A A
R R
1 0
0
1
0
1
1
0
0
0
0 0
3
2
1
0
Characteristics subject to change without notice. 10 of 22
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X9258
SYMBOL TABLE
Guidelines for Calculating Typical Values of Bus
Pull-Up Resistors
120
WAVEFORM
INPUTS
OUTPUTS
V
CC MAX
R
=
=1.8KΩ
MIN
IOL MIN
100
80
Must be
steady
Will be
steady
t
R
R
=
MAX
C
BUS
May change
from Low to
High
Will change
from Low to
High
Max.
Resistance
60
40
20
0
May change
from High to
Low
Will change
from High to
Low
Min.
Resistance
Don’t Care:
Changes
Allowed
Changing:
State Not
Known
0
20 40 60 80 100 120
Bus Capacitance (pF)
N/A
Center Line
is High
Impedance
Characteristics subject to change without notice. 11 of 22
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X9258
ABSOLUTE MAXIMUM RATINGS
COMMENT
Temperature under bias ....................–65°C to +135°C
Storage temperature .........................–65°C to +150°C
Voltage on SDA, SCL or any address input
Stresses above those listed under “Absolute Maximum
Ratings” may cause permanent damage to the device.
This is a stress rating only; functional operation of the
device (at these or any other conditions above those
listed in the operational sections of this specification) is
not implied. Exposure to absolute maximum rating
conditions for extended periods may affect device
reliability.
with respect to V ..................................–1V to +7V
SS
Voltage on V+ (referenced to V )......................... 10V
SS
Voltage on V- (referenced to V ).........................-10V
SS
(V+) – (V-).............................................................. 12V
Any V /R ...............................................................V+
H
H
Any V /R ................................................................. V-
L
L
Lead temperature (soldering, 10 seconds)........ 300°C
I
(10 seconds)................................................ 15mA
W
RECOMMENDED OPERATING CONDITIONS
Device
X9258
Supply Voltage (V ) Limits
Temperature
Commercial
Industrial
Min.
0°C
Max.
+70°C
+85°C
CC
5V 10%
X9258-2.7
2.7V to 5.5V
–40°C
ANALOG CHARACTERISTICS
(Over recommended operating conditions unless otherwise stated.)
Limits
Symbol
Parameter
End to end resistance tolerance
Power rating
Min.
Typ.
Max.
20
Unit
%
Test Conditions
50
mW
mA
Ω
25°C, each pot
I
Wiper current
7.5
Wiper current = 1mA
W
R
R
Wiper resistance
150
40
250
100
+5.5
+5.5
-4.5
-2.7
V+
I
I
=
=
1mA @ V+ = 3V, V- = -3V
1mA @ V+ = 5V, V- = -5V
W
W
Wiper resistance
Ω
W
W
V+
Voltage on V+ Pin
Voltage on V- Pin
X9258
+4.5
+2.7
-5.5
-5.5
V-
V
X9258-2.7
X9258
V-
V
X9258 -2.7
V
Voltage on any V /R or V /R pin
V
dBV
%
MI(3)
MI(3)
ppm/°C
TERM
H
H
L
L
Noise
Resolution (4)
Absolute linearity (1)
Relative linearity (2)
-120
0.6
Ref: 1kHz
V –V
1
w(n)(actual) w(n)(expected)
0.6
V
–[V
]
w(n + 1)
w(n) + MI
Temperature coefficient of R
300
TOTAL
Ratiometric Temperature Coefficient
C /C /C Potentiometer Capacitance
W
20 ppm/°C
pF
10/10/25
See Circuit #3
H
L
Characteristics subject to change without notice. 12 of 22
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X9258
D.C. OPERATING CHARACTERISTICS (Over the recommended operating conditions unless otherwise specified.)
Limits
Symbol
Parameter
Min.
Typ.
Max.
Unit
Test Conditions
I
V
supply current (Non-
1
mA
f = 400kHz, SDA = Open,
SCL
Other Inputs = V
SS
CC1
CC
volatile Write)
I
V
supply current (move
100
µA
f
= 400kHz, SDA = Open,
SCL
CC2
CC
wiper, write, read)
Other Inputs = V
SS
I
V
current (standby)
5
µA
µA
µA
V
SCL = SDA = V , Addr. = V
CC SS
SB
CC
I
Input leakage current
Output leakage current
Input HIGH voltage
Input LOW voltage
Output LOW voltage
10
10
V
V
= V to V
SS CC
LI
IN
I
= V to V
SS CC
LO
OUT
V
V
x 0.7
V
+ 0.1
IH
CC
CC
V
–0.5
V
x 0.3
CC
V
IL
V
0.4
V
I
= 3mA
OL
OL
Notes: (1) Absolute linearity is utilized to determine actual wiper voltage versus expected voltage as determined by wiper position when used
as a potentiometer.
(2) Relative linearity is utilized to determine the actual change in voltage between two successive tap positions when used as a potenti-
ometer. It is a measure of the error in step size.
(3) MI = RTOT/255 or (V /R —V /R )/255, single pot
H
H
L
L
(4) Max. = all four arrays cascaded together, Typical = individual array resolutions.
ENDURANCE AND DATA RETENTION
Parameter
Minimum endurance
Data retention
Min.
100,000
100
Unit
Data changes per bit per register
years
CAPACITANCE
Symbol
Test
Max.
Unit
pF
Test Conditions
(5)
C
Input/output capacitance (SDA)
8
6
V
= 0V
= 0V
I/O
I/O
(5)
C
Input capacitance (A0, A1, A2, A3, and SCL)
pF
V
IN
IN
POWER-UP TIMING
Symbol
Parameter
Min.
Max.
1
Unit
ms
(6)
t
Power-up to initiation of read operation
Power-up to initiation of write operation
PUR
(6)
t
5
ms
PUW
(7)
t V
V Power up ramp
CC
0.2
50
V/msec
R
CC
POWER UP AND DOWN REQUIREMENT
The are no restrictions on the sequencing of the bias supplies V , V+, and V- provided that all three supplies
CC
reach their final values within 1msec of each other. At all times, the voltages on the potentiometer pins must be less
than V+ and more than V-. The recall of the wiper position from nonvolatile memory is not in effect until all supplies
reach their final value.The V ramp rate spec is always in effect.
CC
Notes: (5) This parameter is periodically sampled and not 100% tested.
(6) t
and t
are the delays required from the time the third (last) power supply (V , V+ or V-) is stable until the specific
PUR
PUW CC
instruction can be issued.These parameters are periodically sampled and not 100% tested.
(7) Sample tested only.
Characteristics subject to change without notice. 13 of 22
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X9258
A.C. TEST CONDITIONS
Test Circuit #3 SPICE Macro Model
Input pulse levels
V
x 0.1 to V x 0.9
CC
CC
Macro Model
Input rise and fall times
Input and output timing level
10ns
R
TOTAL
V
x 0.5
CC
R
R
L
H
C
L
C
H
C
EQUIVALENT A.C. LOAD CIRCUIT
W
10pF
5V
2.7V
10pF
25pF
1533Ω
R
W
SDA Output
100pF
100pF
AC TIMING (Over recommended operating condition)
Symbol Parameter
Min.
Max.
Unit
kHz
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
f
Clock frequency
400
SCL
t
Clock cycle time
2500
600
1300
600
600
600
100
30
CYC
t
Clock high time
HIGH
t
Clock low time
LOW
t
Start setup time
SU:STA
HD:STA
SU:STO
t
Start hold time
t
Stop setup time
t
SDA data input setup time
SDA data input hold time
SCL and SDA rise time
SCL and SDA fall time
SCL low to SDA data output valid time
SDA data output hold time
SU:DAT
HD:DAT
t
t
300
300
900
R
t
F
t
AA
t
50
50
1300
0
DH
T
Noise suppression time constant at SCL and SDA inputs
Bus free rime (prior to any transmission)
WP, A0, A1, A2 and A3 setup time
I
t
BUF
t
SU:WPA
HD:WPA
t
WP, A0, A1, A2 and A3 hold time
0
HIGH-VOLTAGE WRITE CYCLE TIMING
Symbol
Parameter
Typ.
Max.
Unit
t
High-voltage write cycle time (store instructions)
5
10
ms
WR
Characteristics subject to change without notice. 14 of 22
REV 1.1.7 2/4/03
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X9258
DCP TIMING
Symbol
Parameter
Min. Max. Unit
t
Wiper response time after the third (last) power supply is stable
10
10
10
µs
µs
µs
WRPO
t
Wiper response time after instruction issued (all load instructions)
Wiper response time from an active SCL/SCK edge (increment/decrement instruction)
WRL
t
WRID
Note: (8) A device must internally provide a hold time of at least 300ns for the SDA signal in order to bridge the undefined region of the falling
edge of SCL.
TIMING DIAGRAMS 2-WIRE INTERFACE
START and STOP Timing
(START)
(STOP)
t
t
F
R
SCL
SDA
t
t
t
SU:STO
SU:STA
HD:STA
t
t
F
R
Input Timing
t
t
CYC
HIGH
SCL
t
LOW
SDA
t
t
t
BUF
SU:DAT
HD:DAT
Output Timing
SCL
SDA
t
t
DH
AA
Characteristics subject to change without notice. 15 of 22
REV 1.1.7 2/4/03
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X9258
DCP Timing (for All Load Instructions)
(STOP)
SCL
SDA
VWx
LSB
t
WRL
DCP Timing (for Increment/Decrement Instruction)
SCL
Wiper Register Address
Inc/Dec
Inc/Dec
SDA
VWx
t
WRID
Write Protect and Device Address Pins Timing
(START)
(STOP)
SCL
...
(Any Instruction)
...
SDA
...
t
t
SU:WPA
HD:WPA
WP
A0, A1
A2, A3
Characteristics subject to change without notice. 16 of 22
REV 1.1.7 2/4/03
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X9258
APPLICATIONS INFORMATION
Basic Configurations of Electronic Potentiometers
+V
R
V
R
V
/R
W
W
I
Three terminal Potentiometer;
Variable voltage divider
Two terminal Variable Resistor;
Variable current
Application Circuits
Noninverting Amplifier
Voltage Regulator
V
+
–
S
V
V
V (REG)
O
317
O
IN
R
1
R
2
I
adj
R
R
1
2
V
= (1+R /R )V
V
(REG) = 1.25V (1+R /R )+I
R
adj
O
2
1
S
O
2
1
2
Offset Voltage Adjustment
Comparator with Hysteresis
R
R
2
1
V
–
+
S
V
V
S
O
100KΩ
–
+
V
O
TL072
R
R
1
2
10KΩ
10KΩ
+12V
V
V
= {R /(R +R )} V (max)
1 1 2 O
UL
LL
10KΩ
-12V
= {R /(R +R )} V (min)
1
1
2
O
Characteristics subject to change without notice. 17 of 22
REV 1.1.7 2/4/03
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X9258
Application Circuits (continued)
Attenuator
Filter
C
V
+
–
S
R
V
R
1
2
O
–
R
V
O
V
+
S
R
3
R
2
R
4
All R = 10kΩ
S
R
1
G
= 1 + R /R
2 1
V
= G V
S
O
O
fc = 1/(2pRC)
-1/2 ≤ G ≤ +1/2
Inverting Amplifier
Equivalent L-R Circuit
R
R
2
1
V
S
R
2
C
1
–
+
V
+
–
S
V
O
R
R
1
3
Z
IN
V = G V
O
S
G = - R /R
2
1
Z
= R + s R (R + R ) C = R + s Leq
2 2 1 3 1 2
IN
(R + R ) >> R
1
3
2
Function Generator
C
R
R
1
2
–
–
+
+
R
R
}
}
A
B
frequency ∝ R , R , C
1
2
amplitude ∝ R , R
A
B
Characteristics subject to change without notice. 18 of 22
REV 1.1.7 2/4/03
www.xicor.com
X9258
PACKAGING INFORMATION
24-Bump Chip Scale Package (CSP B24)
Package Outline Drawing
a
d
f
A4
B4
C4
D4
E4
F4
A3
B3
C3
D3
E3
F3
A2 A1
B2 B1
C2 C1
D2 D1
E2 E1
j
b
F2 F1
k
m
e
e
l
Top View (Sample Marking)
Bottom View (Bumped Side)
Side View
c
Side View
Package Dimensions
Ball Matrix:
Millimeters
4
3
2
1
Symbol
Min
Nominal
2.801
4.579
0.677
0.457
0.220
0.320
0.5
Max
R
R
R
W0
A
B
C
D
E
F
A1
A2
WP
L1
Package Width
a
b
c
d
e
f
2.771
4.549
0.644
0.444
0.200
0.300
2.831
4.609
0.710
0.470
0.240
0.340
R
SDA
W1
L0
Package Length
R
R
VSS
VCC
V+
H1
H0
Package Height
R
R
V-
H2
H3
Body Thickness
R
R
A3
NC
A0
W2
L3
Ball Height
R
R
SCL
L2
W3
Ball Diameter
Ball Pitch – Width
Ball Pitch – Length
Ball to Edge Spacing – Width
Ball to Edge Spacing – Length
j
k
l
0.5
0.626
1.015
0.651
1.040
0.676
1.065
m
Characteristics subject to change without notice. 19 of 22
REV 1.1.7 2/4/03
www.xicor.com
X9258
PACKAGING INFORMATION
24-Lead Plastic, TSSOP, Package Code V24
.026 (.65) BSC
.169 (4.3)
.177 (4.5)
.252 (6.4) BSC
.303 (7.70)
.311 (7.90)
.047 (1.20)
.0075 (.19)
.0118 (.30)
.002 (.06)
.005 (.15)
.010 (.25)
Gage Plane
(7.72)
(4.16)
0°–8°
Seating Plane
.020 (.50)
.030 (.75)
(1.78)
(0.42)
Detail A (20X)
(0.65)
ALL MEASUREMENTS ARE TYPICAL
.031 (.80)
.041 (1.05)
See Detail “A”
NOTE: ALL DIMENSIONS IN INCHES (IN PARENTHESES IN MILLIMETERS)
Characteristics subject to change without notice. 20 of 22
REV 1.1.7 2/4/03
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X9258
PACKAGING INFORMATION
24-Lead Plastic Small Outline Gull Wing Package Type S
0.393 (10.00)
0.290 (7.37)
0.299 (7.60)
0.420 (10.65)
Pin 1 Index
Pin 1
0.014 (0.35)
0.020 (0.50)
0.598 (15.20)
0.610 (15.49)
(4X) 7°
0.092 (2.35)
0.105 (2.65)
0.003 (0.10)
0.012 (0.30)
0.050 (1.27)
0.050"Typical
0.010 (0.25)
0.020 (0.50)
X 45°
0.050"
Typical
0° – 8°
0.009 (0.22)
0.013 (0.33)
0.420"
0.015 (0.40)
0.050 (1.27)
0.030" Typical
24 Places
FOOTPRINT
NOTE: ALL DIMENSIONS IN INCHES (IN PARENTHESES IN MILLIMETERS)
Characteristics subject to change without notice. 21 of 22
REV 1.1.7 2/4/03
www.xicor.com
X9258
Ordering Information
X9258
Y
P
T
V
V
Limits
CC
Device
Blank = 5V 10%
–2.7 = 2.7 to 5.5V
Temperature Range
Blank = Commercial = 0°C to +70°C
I = Industrial = –40°C to +85°C
Package
S24 = 24-Lead SOIC
V24 = 24-Lead TSSOP
B24 = 24-Lead CSP
Potentiometer Organization
T = 100KΩ
U= 50KΩ
S & V Package Marking
Line #1
Line #2
Line #3
Line #4
(Blank)
(Part Number)
(Date Code) (*)
(Blank)
= F 2.7V 0 to 70°C
G 2.7V -40 to +85°C
I
5V
-40 to +85°C
©Xicor, Inc. 2003 Patents Pending
LIMITED WARRANTY
Devices sold by Xicor, Inc. are covered by the warranty and patent indemnification provisions appearing in its Terms of Sale only. Xicor, Inc. makes no warranty,
express, statutory, implied, or by description regarding the information set forth herein or regarding the freedom of the described devices from patent infringement.
Xicor, Inc. makes no warranty of merchantability or fitness for any purpose. Xicor, Inc. reserves the right to discontinue production and change specifications and prices
at any time and without notice.
Xicor, Inc. assumes no responsibility for the use of any circuitry other than circuitry embodied in a Xicor, Inc. product. No other circuits, patents, or licenses are implied.
TRADEMARK DISCLAIMER:
Xicor and the Xicor logo are registered trademarks of Xicor, Inc. AutoStore, Direct Write, Block Lock, SerialFlash, MPS, and XDCP are also trademarks of Xicor, Inc. All
others belong to their respective owners.
U.S. PATENTS
Xicor products are covered by one or more of the following U.S. Patents: 4,326,134; 4,393,481; 4,404,475; 4,450,402; 4,486,769; 4,488,060; 4,520,461; 4,533,846;
4,599,706; 4,617,652; 4,668,932; 4,752,912; 4,829,482; 4,874,967; 4,883,976; 4,980,859; 5,012,132; 5,003,197; 5,023,694; 5,084,667; 5,153,880; 5,153,691;
5,161,137; 5,219,774; 5,270,927; 5,324,676; 5,434,396; 5,544,103; 5,587,573; 5,835,409; 5,977,585. Foreign patents and additional patents pending.
LIFE RELATED POLICY
In situations where semiconductor component failure may endanger life, system designers using this product should design the system with appropriate error detection
and correction, redundancy and back-up features to prevent such an occurrence.
Xicor’s products are not authorized for use in critical components in life support devices or systems.
1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, and whose failure to
perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user.
2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life
support device or system, or to affect its safety or effectiveness.
Characteristics subject to change without notice. 22 of 22
REV 1.1.7 2/4/03
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X9258US24 | ROCHESTER | QUAD 100K DIGITAL POTENTIOMETER, 2-WIRE SERIAL CONTROL INTERFACE, 256 POSITIONS, PDSO24, 0.300 INCH, PLASTIC, MS-013ADC, SOIC-24 | 获取价格 | |
X9258US24-2.7 | INTERSIL | Low Noise/Low Power/2-Wire Bus/256 Taps | 获取价格 | |
X9258US24-2.7 | XICOR | Quad Digital Controlled Potentiometers (XDCP) | 获取价格 | |
X9258US24-2.7 | ROCHESTER | QUAD 100K DIGITAL POTENTIOMETER, 2-WIRE SERIAL CONTROL INTERFACE, 256 POSITIONS, PDSO24, 0.300 INCH, PLASTIC, MS-013ADC, SOIC-24 | 获取价格 | |
X9258US24-2.7T1 | XICOR | Digital Potentiometer, 4 Func, 50000ohm, 2-wire Serial Control Interface, 256 Positions, CMOS, PDSO24, PLASTIC, SOIC-24 | 获取价格 | |
X9258US24I | INTERSIL | Low Noise/Low Power/2-Wire Bus/256 Taps | 获取价格 |
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