AD5333BRUZ Analog Devices Inc, AD5333BRUZ Datasheet - Page 13

IC DAC 10BIT DUAL VOUT 24-TSSOP

AD5333BRUZ

Manufacturer Part Number
AD5333BRUZ
Description
IC DAC 10BIT DUAL VOUT 24-TSSOP
Manufacturer
Analog Devices Inc
Datasheet

Specifications of AD5333BRUZ

Data Interface
Parallel
Settling Time
7µs
Number Of Bits
10
Number Of Converters
2
Voltage Supply Source
Single Supply
Power Dissipation (max)
2.25mW
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Package / Case
24-TSSOP
Resolution (bits)
10bit
Sampling Rate
143kSPS
Input Channel Type
Parallel
Supply Voltage Range - Analogue
2.5V To 5.5V
Supply Current
300µA
Digital Ic Case
RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

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Figure 23. I
V and V
REV. 0
FUNCTIONAL DESCRIPTION
The AD5332/AD5333/AD5342/AD5343 are dual DACs fabri-
cated on a CMOS process with resolutions of 8, 10, 12, and
12 bits, respectively. They are written to using a parallel inter-
face. They operate from single supplies of 2.5 V to 5.5 V and
the output buffer amplifiers offer rail-to-rail output swing. The
AD5333 and AD5342 have reference inputs that may be buff-
ered to draw virtually no current from the reference source.
Their output voltage range may be configured to be 0 to V
or 0 to 2 V
are unbuffered and their output range is 0 to V
have a power-down feature that reduces current consumption to
only 80 nA @ 3 V.
Digital-to-Analog Section
The architecture of one DAC channel consists of a reference
buffer and a resistor-string DAC followed by an output buffer
amplifier. The voltage at the V
voltage for the DAC. Figure 28 shows a block diagram of the
DAC architecture. Since the input coding to the DAC is straight
binary, the ideal output voltage is given by:
Figure 26. Full-Scale Error vs. V
–0.2
–0.4
0.2
0
0
100
0
T
V
A
REF
DD
= 25 C
150
V
= 2V
1
REF
= 5 V
DD
DD
= +3V
. The reference inputs of the AD5332 and AD5343
200
Histogram with V
2
V
V
I
DD
REF
OUT
250
3
– A
– V
=
300
4
V
REF
V
DD
350
REF
5
= +5V
×
DD
2
pin provides the reference
D
400
N
REF
= 3
6
×
Gain
Figure 24. AD5342 Major-Code Tran-
sition Glitch Energy
REF
0.939
0.938
0.937
0.936
0.935
0.934
0.933
0.932
0.931
0.930
0.929
. The devices
Figure 27. DAC-DAC Crosstalk
REF
750ns/DIV
–13–
500 ns/DIV
where:
D = decimal equivalent of the binary code which is loaded to
the DAC register:
N = DAC resolution
Gain = Output Amplifier Gain (1 or 2)
0–255 for AD5332 (8 Bits)
0–1023 for AD5333 (10 Bits)
0–4095 for AD5342/AD5343 (12 Bits)
REGISTER
INPUT
AD5332/AD5333/AD5342/AD5343
Figure 28. Single DAC Channel Architecture
REGISTER
DAC
Figure 25. Multiplying Bandwidth
(Small-Signal Frequency Response)
REFERENCE
–10
–20
–30
–40
–50
–60
BUFFER
10
0
0.01
RESISTOR
0.1
STRING
V
REF
FREQUENCY – kHz
1
BUFFER AMPLIFIER
10
OUTPUT
100
GAIN
BUF
1k
V
OUT
10k

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