AD5336BRUZ Analog Devices Inc, AD5336BRUZ Datasheet - Page 14
AD5336BRUZ
Manufacturer Part Number
AD5336BRUZ
Description
IC DAC 10BIT QUAD VOUT 28-TSSOP
Manufacturer
Analog Devices Inc
Datasheet
1.AD5336BRUZ.pdf
(20 pages)
Specifications of AD5336BRUZ
Data Interface
Parallel
Settling Time
7µs
Number Of Bits
10
Number Of Converters
4
Voltage Supply Source
Single Supply
Power Dissipation (max)
4.5mW
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Package / Case
28-TSSOP
Resolution (bits)
10bit
Sampling Rate
143kSPS
Input Channel Type
Parallel
Supply Voltage Range - Analog
2.5V To 5.5V
Supply Current
600µA
Digital Ic Case Style
TSSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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AD5334/AD5335/AD5336/AD5344
Resistor String
The resistor string section is shown in Figure 29. It is simply a
string of resistors, each of value R. The digital code loaded
to the DAC register determines at what node on the string the
voltage is tapped off to be fed into the output amplifier. The
voltage is tapped off by closing one of the switches connecting
the string to the amplifier. Because it is a string of resistors, it is
guaranteed monotonic.
DAC Reference Input
The DACs operate with an external reference. The reference
inputs are unbuffered and have an input range of 0.25 V to V
The impedance per DAC is typically 180 kΩ for 0–V
and 90 kΩ for 0–2 V
separate reference inputs for each DAC, while the AD5334 and
AD5335 have a reference inputs for each pair of DACS (A/B
and C/D).
Output Amplifier
The output buffer amplifier is capable of generating output
voltages to within 1 mV of either rail. Its actual range depends
on V
If a gain of 1 is selected (GAIN = 0), the output range is 0.001 V
to V
If a gain of 2 is selected (GAIN = 1), the output range is 0.001 V
to 2 V
is limited to V
The output amplifier is capable of driving a load of 2 kΩ to
GND or V
source and sink capabilities of the output amplifier can be seen
in Figure 15.
The slew rate is 0.7 V/µs with a half-scale settling time to ±0.5 LSB
(at 8 bits) of 6 µs with the output unloaded. See Figure 20.
PARALLEL INTERFACE
The AD5334, AD5336, and AD5344 load their data as a single
8-, 10-, or 12-bit word, while the AD5335 loads data as a low
byte of 8 bits and a high byte containing 2 bits.
Double-Buffered Interface
The AD5334/AD5335/AD5336/AD5344 DACs all have double-
buffered interfaces consisting of an input register and a DAC
register. DAC data and GAIN inputs (when available) are written
to the input register under control of the Chip Select (CS) and
Write (WR).
REF
REF
REF
.
, GAIN, the load on V
. However because of clamping the maximum output
DD
, in parallel with 500 pF to GND or V
DD
– 0.001 V.
R
R
R
R
R
Figure 29. Resistor String
REF
V
REF
mode. The AD5336 and AD5344 have
OUT
, and offset error.
TO OUTPUT
AMPLIFIER
REF
DD
. The
mode
DD
.
–14–
Access to the DAC register is controlled by the LDAC function.
When LDAC is high, the DAC register is latched and the input
register may change state without affecting the contents of the
DAC register. However, when LDAC is brought low, the DAC
register becomes transparent and the contents of the input
register are transferred to it. The gain control signal is also
double-buffered and is only updated when LDAC is taken low.
This is useful if the user requires simultaneous updating of all
DACs and peripherals. The user may write to all input registers
individually and then, by pulsing the LDAC input low, all out-
puts will update simultaneously.
Double-buffering is also useful where the DAC data is loaded in
two bytes, as in the AD5335, because it allows the whole data
word to be assembled in parallel before updating the DAC register.
This prevents spurious outputs that could occur if the DAC
register were updated with only the high byte or the low byte.
These parts contain an extra feature whereby the DAC register
is not updated unless its input register has been updated since
the last time that LDAC was brought low. Normally, when
LDAC is brought low, the DAC registers are filled with the
contents of the input registers. In the case of the AD5334/
AD5335/AD5336/AD5344, the part will only update the DAC
register if the input register has been changed since the last
time the DAC register was updated. This removes unnecessary
crosstalk.
Clear Input (CLR)
CLR is an active low, asynchronous clear that resets the input and
DAC registers. Note that the AD5344 has no CLR function.
Chip Select Input (CS)
CS is an active low input that selects the device.
Write Input (WR)
WR is an active low input that controls writing of data to the
device. Data is latched into the input register on the rising edge
of WR.
Load DAC Input (LDAC)
LDAC transfers data from the input register to the DAC register
(and hence updates the outputs). Use of the LDAC function
enables double buffering of the DAC and GAIN data. There
are two LDAC modes:
Synchronous Mode: In this mode the DAC register is updated
after new data is read in on the rising edge of the WR input.
LDAC can be tied permanently low or pulsed as in Figure 1.
Asynchronous Mode: In this mode the outputs are not updated
at the same time that the input register is written to. When LDAC
goes low the DAC register is updated with the contents of the
input register.
High-Byte Enable Input (HBEN)
High-Byte Enable is a control input on the AD5335 only that
determines if data is written to the high-byte input register or
the low-byte input register.
The low data byte of the AD5335 consists of data bits 0 to 7 at
data inputs DB
Bits 8 and 9 at data inputs DB
ignored during a high byte write. See Figure 30.
0
to DB
7
, while the high byte consists of Data
0
and DB
1
. DB
2
to DB
7
are
REV. 0
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