MCP6V08T-E/MNY Microchip Technology, MCP6V08T-E/MNY Datasheet - Page 25
MCP6V08T-E/MNY
Manufacturer Part Number
MCP6V08T-E/MNY
Description
IC OPAMP AUTO-ZERO SGL 8-TDFN
Manufacturer
Microchip Technology
Specifications of MCP6V08T-E/MNY
Slew Rate
0.5 V/µs
Package / Case
8-TDFN
Amplifier Type
Chopper (Zero-Drift)
Number Of Circuits
1
Output Type
Rail-to-Rail
Gain Bandwidth Product
1.3MHz
Current - Input Bias
6pA
Voltage - Input Offset
3µV
Current - Supply
300µA
Current - Output / Channel
22mA
Voltage - Supply, Single/dual (±)
1.8 V ~ 5.5 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Number Of Channels
1
Common Mode Rejection Ratio (min)
120 dB
Input Offset Voltage
0.003 mV
Input Bias Current (max)
5000 pA
Operating Supply Voltage
3 V, 5 V
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Shutdown
No
Supply Voltage (max)
5.5 V
Supply Voltage (min)
1.8 V
Technology
CMOS
Voltage Gain Db
158 dB
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
-3db Bandwidth
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
MCP6V08T-E/MNYTR
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MCP6V08T-E/MNY
Manufacturer:
MICROCHIP
Quantity:
12 000
4.3.8.4
The dual op amp amplifiers shown in
Figure 4-15
greater than 1, and a common mode gain of 1 .They
can use the layout shown in
ting resistors (R
bined so that the thermal voltages can be canceled.
The guard traces (with ground vias at the ends) help
minimize the thermal gradients. The resistor layout
cancels the resistor thermal voltages, assuming the
temperature gradient is constant near the resistors:
EQUATION 4-4:
FIGURE 4-11:
for Dual Non-inverting Amplifier.
© 2008 Microchip Technology Inc.
Where:
Thermal voltages are approximately equal
Note:
G
G
DM
CM
V
V
IA
IB
R1
R2
R3
=
=
Changing the orientation of the resistors
will usually cause a significant decrease in
the cancellation of the thermal voltages.
(V
(V
produce a non-inverting difference gain
Dual Non-inverting Amplifier Layout
for Thermo-junctions
½ MCP6V07
½ MCP6V07
OA
OA
1 + R
1, common mode gain
V
2
) between the two sides are not com-
OS
– V
+ V
is neglected
3
OB
V
OB
R
R
R
R
/R
OA
PCB Layout and Schematic
1
1
V
2
2
) ≈ (V
)/2 ≈ (V
2
U1
U
U
IA
, differential mode gain
1
1
V
V
Figure
IA
IB
OB
IA
R
R
– V
3
3
+ V
IB
4-11. The gain set-
)G
IB
Figure 4-14
)/2
DM
R1
R2
R3
V
V
OA
OB
and
4.3.8.5
In cases where an individual resistor needs to have its
thermo-junction voltage cancelled, it can be split into
two equal resistors as shown in
the thermal gradients near the resistors as small as
possible, the layouts are symmetrical with a ring of
metal around the outside. Make R
R
FIGURE 4-12:
Resistors.
Minimize temperature gradients at critical components
(resistors, op amps, heat sources, etc.):
• Minimize exposure to gradients
• Align with constant temperature (contour) lines
• Minimize magnitude of gradients
Make the temperature gradient point in one direction:
• Add guard traces
• Shape any FR4 gaps
2A
Note:
- Small components
- Tight spacing
- Shield from air currents
- Place on PCB center line
- Select parts with lower power dissipation
- Use same metal junctions on thermo-junc-
- Use metal junctions with low temperature to
- Large distance from heat sources
- Ground plane underneath (large area)
- FR4 gaps (no copper for thermal insulation)
- Series resistors inserted into traces (adds
- Use heat sinks
- Constant temperature curves follow the
- Connect to ground plane
- Constant temperature curves follow the
= R
tions that need to match
voltage coefficients
thermal and electrical resistance)
traces
edges
R
2B
1A
R
= 2R
1A
Changing the orientation of the resistors
will usually cause a significant decrease in
the cancellation of the thermal voltages.
Other PCB Thermal Design Tips
R
2
.
1B
R
MCP6V06/7/8
1B
PCB Layout for Individual
Figure
1A
R
R
DS22093A-page 25
2A
= R
2B
R
R
2A
2B
4-12. To keep
1B
= R
1
/2 and
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