AD5260BRU200-REEL7 Analog Devices Inc, AD5260BRU200-REEL7 Datasheet - Page 7
AD5260BRU200-REEL7
Manufacturer Part Number
AD5260BRU200-REEL7
Description
IC DGTL POT SNGL 256POS 14-TSSOP
Manufacturer
Analog Devices Inc
Datasheet
1.AD5260BRU50.pdf
(20 pages)
Specifications of AD5260BRU200-REEL7
Rohs Status
RoHS non-compliant
Taps
256
Resistance (ohms)
200K
Number Of Circuits
1
Temperature Coefficient
35 ppm/°C Typical
Memory Type
Volatile
Interface
4-Wire SPI Serial
Voltage - Supply
4.5 V ~ 16.5 V, ±4.5 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
14-TSSOP
Resistance In Ohms
200K
Other names
AD5260BRU200REEL7
THEORY OF OPERATION
The AD5260/AD5262 provide a single- or dual-channel, 256-position
digitally controlled variable resistor (VR) device and operate up to
15 V maximum voltage. Changing the programmed VR settings
is accomplished by clocking an 8-/9-bit serial data word into the
SDI (Serial Data Input) pin. For the AD5262, the format of this
data word is one address bit. A0 represents the first bit B8, then
followed by eight data bits B7–B0 with MSB first. Tables I and II
provide the serial register data word format. See Table III for the
AD5262 address assignment to decode the location of the VR latch
receiving the serial register data in bits B7 through B0. VR outputs
can be changed one at a time in random sequence. The AD5260/
AD5262 presets to a mid-scale, simplifying fault condition recov-
ery at power-up. Mid-scale can also be achieved at any time by
asserting the PR pin. Both parts have an internal power ON preset
that places the wiper in a mid-scale preset condition at power ON.
Operation of the power ON preset function depends only on the
state of the V
The AD5260/AD5262 contains a power shutdown SHDN pin,
which places the RDAC in an almost zero power consumption
state where terminals Ax are open circuited, and the wiper W is con-
nected to B, resulting in only leakage currents being consumed in
the VR structure. In the shutdown mode, the VR latch settings are
maintained so that, returning to operational mode from power
shutdown, the VR settings return to their previous resistance values.
DIGITAL INTERFACING
The AD5260/AD5262 contains a 4-wire SPI-compatible
digital interface (SDI, SDO, CS, and CLK). For the AD5260,
the 8-bit serial word must be loaded with MSB first, and the
format of the word is shown in Table I. For the AD5262, the
9-bit serial word must be loaded with address bit A0 first, then
MSB of the data. The format of the word is shown in Table II.
REV. 0
GND
CLK
SDO
SDI
CS
PR
V
L
Table III. AD5262 Address Decode Table
POWER-
PRESET
REG
SER
L
ON
Figure 3. AD5262 Block Diagram
pin.
A0
D7
D6
D5
D4
D3
D2
D1
D0
A0
0
1
ADDR
DEC
EN
Latch Loaded
RDAC#1
RDAC#2
LATCH
LATCH
RDAC
RDAC
PR
#1
#2
PR
V
A1
W1
B1
A2
W2
B2
SHDN
V
DD
SS
–7–
The positive-edge sensitive CLK input requires clean transitions
to avoid clocking incorrect data into the serial input register.
Standard logic families work well. If mechanical switches are used
for product evaluation, they should be debounced by a flip-flop or
other suitable means. Figure 3 shows more detail of the internal
digital circuitry. When CS is low, the clock loads data into the
serial register on each positive clock edge (see Table IV).
CLK CS PR
L
≠*
X
X
X
X
X
*≠ = positive edge, X = don’t care, SR = shift register
The data setup and data hold times in the specification table
determine the data valid time requirements. The AD5260 uses
an 8-bit serial input data register word that is transferred to the
internal RDAC register when the CS line returns to logic high.
For the AD5262 the last 9 bits of the data word entered into the
serial register are held when CS returns high. Any extra bits are
ignored. At the same time CS goes high, it gates the address
decoder enabling AD5262 one of two positive edge-triggered
AD5262 RDAC latches (see Figure 4).
The target RDAC latch is loaded with the last 8 bits of the serial data
word completing one RDAC update. For the AD5262, two separate
9-bit data words must be clocked in to change both VR settings.
During shutdown (SHDN) the SDO output pin is forced to the
off (logic high state) to disable power dissipation in the pull-up
resistor. See Figure 5 for equivalent SDO output circuit schematic.
Figure 5. Detail SDO Output Schematic of the AD5260
L
L
≠
H
X
H
H
Figure 4. Equivalent Input Control Logic
SHDN
CLK
SDI
CLK
H
H
H
H
L
≠
H
CS
SDI
CS
PR
AD5260/AD5262
REGISTER
SHDN
H
H
H
H
H
H
L
SERIAL
Table IV. Truth Table
Register Activity
No SR effect, enables SDO pin
Shift one bit in from the SDI pin.
The eighth previously entered bit is
shifted out of the SDO pin.
Load SR data into RDAC latch
No Operation
Sets all RDAC latches to Mid-Scale,
wiper centered, and SDO latch
cleared.
Latches all RDAC latches to 80
Open circuits all resistor A–terminals,
connects W to B, turns off SDO
output transistor.
D
CK
REGISTER
RS
DECODE
SERIAL
Q
ADDR
AD5260/AD5262
RDAC 1
RDAC 2
SDO
H
.
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