MAX534AEEE Maxim Integrated Products, MAX534AEEE Datasheet - Page 10
MAX534AEEE
Manufacturer Part Number
MAX534AEEE
Description
IC DAC QUAD +5V 8BIT R/R 16-QSOP
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX534BCPE.pdf
(16 pages)
Specifications of MAX534AEEE
Settling Time
8µs
Number Of Bits
8
Data Interface
Serial
Number Of Converters
4
Voltage Supply Source
Single Supply
Power Dissipation (max)
667mW
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-QSOP
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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For this command, the data bits are “Don't Cares.” As
an example, three MAX534s are daisy chained (A, B,
and C), and devices A and C need to be updated. The
36-bit-wide command would consist of one 12-bit word
for device C, followed by an NOP instruction for device
B and a third 12-bit word with data for device A. At CS’s
rising edge, device B will not change state.
The mode 1 command resets the serial-output DOUT to
transition at SCLK’s rising edge. Once this command is
issued, DOUT’s phase is latched and will not change
except on power-up or if the specific command to set
the phase to falling edge is issued.
This command also loads all DAC registers with the con-
tents of their respective input registers, and is identical to
the “LDAC” command.
This command resets DOUT to transition at SCLK’s
falling edge. The same command also updates all DAC
registers with the contents of their respective input reg-
isters, identical to the “LDAC” command.
LDAC is typically used in 4-wire interfaces (Figure 7).
This command is level sensitive, and allows asynchro-
nous hardware control of the DAC outputs. With LDAC
low the DAC registers are transparent, and any time an
input register is updated, the DAC output immediately
follows.
Strobing the CLR pin low causes an asynchronous
clear of input and DAC registers and sets all DAC out-
puts to zero. Similar to the LDAC pin, CLR can be
invoked at any time, typically when the device is not
selected (CS = H). When the DAC data is all zeros, this
function is equivalent to the “Update all DACs from Shift
Registers” command.
+5V, Low-Power, 8-Bit Quad DAC
with Rail-to-Rail Output Buffers
(LDAC = x)
(LDAC = x)
10
A1
A1
1
1
Set DOUT Phase—SCLK Falling (Mode 0, Default)
______________________________________________________________________________________
A0
A0
1
0
C1
C1
1
1
Set DOUT Phase—SCLK Rising (Mode 1)
C0
C0
0
0
D7
D7
x
x
D6
D6
x
x
LDAC Operation (Hardware)
D5
D5
x
x
Clear DACs with
D4
D4
x
x
D3
D3
x
x
D2
D2
x
x
D1
D1 D0
x
x
CLR
D0
x
x
DOUT is the internal shift register’s output. DOUT can
be programmed to clock out data on SCLK’s falling
edge (mode 0) or rising edge (mode 1). In mode 0, out-
put data lags input data by 12.5 clock cycles, maintain-
ing compatibility with Microwire and SPI. In mode 1,
output data lags input data by 12 clock cycles. On
power-up, DOUT defaults to mode 0 timing. DOUT
never three-states; it always actively drives either high
or low and remains unchanged when CS is high.
Figure 4. Connections for Microwire
Figure 5. Connections for SPI/QSPI
MAX534
MAX534
SCLK
SCLK
DIN
DIN
CS
CS
SK
SO
I/0
MOSI
SCK
I/0
Serial Data Output
MICROWIRE
SPI/QSPI
PORT
PORT
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