MCP4922-E/ST Microchip Technology, MCP4922-E/ST Datasheet - Page 23
MCP4922-E/ST
Manufacturer Part Number
MCP4922-E/ST
Description
IC DAC 12BIT DUAL W/SPI 14TSSOP
Manufacturer
Microchip Technology
Specifications of MCP4922-E/ST
Number Of Converters
2
Package / Case
14-TSSOP
Settling Time
4.5µs
Number Of Bits
12
Data Interface
Serial, SPI™
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Resolution
12 bit
Interface Type
Serial (3-Wire, SPI, Microwire)
Supply Voltage (max)
5.5 V
Supply Voltage (min)
2.7 V
Maximum Operating Temperature
+ 125 C
Mounting Style
SMD/SMT
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Power Dissipation (max)
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MCP4922-E/ST
Manufacturer:
Microchip
Quantity:
248
Part Number:
MCP4922-E/ST
Manufacturer:
MICROCHI
Quantity:
20 000
6.5
Bipolar operation is achievable using the MCP492X by
using an external operational amplifier (op amp). This
configuration is desirable due to the wide variety and
availability of op amps. This allows a general purpose
DAC, with its cost and availability advantages, to meet
almost any desired output voltage range, power and
noise performance.
EXAMPLE 6-3:
6.5.1
An output step magnitude of 1 mV with an output range
of ±2.05V is desired for a particular application.
1.
2.
3.
2004 Microchip Technology Inc.
If R
Calculate the range: +2.05V – (-2.05V) = 4.1V.
Calculate the resolution needed:
4.1V/1 mV = 4100
Since 2
The amplifier gain (R
must be equal to the desired minimum output to
achieve bipolar operation. Since any gain can
be realized by choosing resistor values (R
the V
a V
setting the DAC to 0, knowing that the output
needs to be -2.05V.
simplified to:
1
= 20 k and R
–
-------- -
REF
R
Bipolar Operation
R
REF
1
2
DESIGN A BIPOLAR DAC USING
EXAMPLE 6-3
12
of 4.1V is used, solve for the gain by
=
source needs to be determined first. If
= 4096, 12-bit resolution is desired.
–
------------ -
V
2.05
REF
2
SPI™
=
V
V
V
Digitally-Controlled Bipolar Voltage Source.
= 10 k , the gain will be 0.5.
OUT
IN+
O
–
------------ -
V
4.1
2.05
=
2
REF
/R
=
=
3
V
The equation can be
1
IN+
V
------------------- -
R
), multiplied by V
V
OUT
3
MCP492X
REF
V
+
1
R
----- -
R
DD
R
R
G
+
2
1
4
4
-------
2
R
----- -
R
=
D
12
2
1
1
-- -
2
–
V
REF
1
V
+R
OUT
REF
R
----- -
R
2
),
2
1
,
R
3
R
4
V
REF
G = Gain select (1x or 2x)
D = Digital value of DAC (0 – 4096)
Example 6-3 illustrates a simple bipolar voltage source
configuration. R
while R
offset. Note that R4 can be tied to V
AV
V
desired.
4.
If R
REF
SS
Next, solve for R
4096, knowing that the output needs to be
+2.05V.
R
4
, if a higher offset is desired. Note that a pull-up to
could be used, instead of R
1
= 20 k , then R
0.1 µF
3
V
and R
IN
---------------------- -
R
+
3
R
V
V
+
R
4
CC
4
CC
MCP4921/4922
1
R
2
and R
shift the DAC's output to a selected
4
+
–
=
3
3
and R
2.05V
-----------------------------------------
2
= 10 k
allow the gain to be selected,
V
O
1.5V
4
+
by setting the DAC to
0.5V
REF
4
, if a higher offset is
REF
DS21897A-page 23
REF
=
2
-- -
3
, instead of
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