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  • 北京元坤伟业科技有限公司

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     该会员已使用本站15年以上
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产品型号MCP6L02T-E/MS的概述

一、MCP6L02T-E/MS的概述 MCP6L02T-E/MS是一款由微芯科技公司(Microchip Technology Inc.)生产的集成运算放大器,常用于信号调理、传感器接口及其他模拟信号处理应用。其具有低功耗、高增益带宽、和低失真等优点,非常适合移动设备及便携式电子产品使用。这款运算放大器的设计旨在满足现代电子设备日益增长的功耗效率和性能需求。 MCP6L02T-E/MS的核心功能是放大微弱的模拟信号,其工作电压范围广泛,适合多种电源条件下的使用。该芯片的设计遵循行业标准,确保兼容性和可靠性,其在数据采集、自动化控制、医疗仪器等领域的应用前景非常广阔。 二、MCP6L02T-E/MS的详细参数 MCP6L02T-E/MS的主要参数如下: - 供电电压范围:2.7V至5.5V - 增益带宽积:1.5MHz - 输入失调电压:最大100μV - 输入偏置电流:最大6nA - ...

产品型号MCP6L02T-E/MS的Datasheet PDF文件预览

MCP6L01/1R/1U/2/4  
1 MHz, 85 µA Op Amps  
Description  
Features  
• Available in SC-70-5 and SOT-23-5 packages  
• Gain Bandwidth Product: 1 MHz (typical)  
• Rail-to-Rail Input/Output  
The Microchip Technology Inc. MCP6L01/1R/1U/2/4  
family of operational amplifiers (op amps) supports  
general-purpose applications. The combination of rail-  
to-rail input and output, low quiescent current and  
bandwidth fit into many applications.  
• Supply Voltage: 1.8V to 6.0V  
• Supply Current: IQ = 85 µA/amplifier (typical)  
• Extended Temperature Range: -40°C to +125°C  
• Available in Single, Dual and Quad Packages  
This family has a 1 MHz Gain Bandwidth Product  
(GBWP) and a low 85 µA per amplifier quiescent  
current. These op amps operate on supply voltages  
between 1.8V and 6.0V, with rail-to-rail input and output  
swing. They are available in the extended temperature  
range.  
Typical Applications  
• Portable Equipment  
• Photodiode Amplifier  
• Analog Filters  
Package Types  
MCP6L01  
MCP6L02  
• Notebooks and PDAs  
• Battery-Powered Systems  
SC-70-5, SOT-23-5  
SOIC, MSOP  
1
2
3
5
VDD  
VOUT  
VSS  
VDD  
1
2
3
4
8
7
6
5
VOUTA  
Design Aids  
• FilterLab® Software  
VOUTB  
VINA  
+
4
VINB  
+
VINA  
VIN  
+
VIN–  
VINB  
VSS  
• Microchip Advanced Part Selector (MAPS)  
• Analog Demonstration and Evaluation Boards  
• Application Notes  
MCP6L01R  
MCP6L04  
SOIC, TSSOP  
SOT-23-5  
1
2
3
5
VOUT  
VDD  
VSS  
V
V
V
VOUTA  
Typical Application  
1
2
3
14  
13  
12  
11  
10  
9
OUTD  
VINA  
+
IND  
4
VIN  
+
VIN–  
R1  
R2  
VINA  
+
IND  
VIN  
VOUT  
VDD 4  
VSS  
MCP6L01U  
R3  
VINB  
+
V
+
5
6
7
INC  
SOT-23-5  
VREF  
VINB  
VINC  
MCP6L01  
1
2
3
5
VIN  
VSS  
VIN  
+
VDD  
VOUTB  
VOUTC  
8
Inverting Amplifier  
4
VOUT  
© 2009 Microchip Technology Inc.  
DS22140A-page 1  
MCP6L01/1R/1U/2/4  
NOTES:  
DS22140A-page 2  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
1.0  
1.1  
ELECTRICAL CHARACTERISTICS  
Absolute Maximum Ratings †  
Notice: Stresses above those listed under “Absolute  
Maximum Ratings” may cause permanent damage to the  
device. This is a stress rating only and functional operation of  
the device at those or any other conditions above those  
indicated in the operational listings of this specification is not  
implied. Exposure to maximum rating conditions for extended  
periods may affect device reliability.  
VDD – VSS .......................................................................7.0V  
Current at Input Pins ....................................................±2 mA  
Analog Inputs (VIN+, VIN–) †† ....... VSS – 1.0V to VDD + 1.0V  
All Inputs and Outputs ................... VSS – 0.3V to VDD + 0.3V  
Difference Input voltage ...................................... |VDD – VSS  
|
†† See Section 4.1.2 “Input Voltage and Current Limits”.  
Output Short Circuit Current ................................Continuous  
Current at Output and Supply Pins ..........................±150 mA  
Storage Temperature ...................................-65°C to +150°C  
Max. Junction Temperature ........................................+150°C  
ESD protection on all pins (HBM, MM) ................≥ 4 kV, 200V  
1.2  
Specifications  
TABLE 1-1:  
DC ELECTRICAL SPECIFICATIONS  
Electrical Characteristics: Unless otherwise indicated, TA = +25°C, VDD = 5.0V, VSS = GND, VCM = VSS, VOUT VDD/2,  
VL = VDD/2, and RL = 10 kΩ to VL (refer to Figure 1-1).  
Min  
(Note 1)  
Max  
(Note 1)  
Parameters  
Sym  
Typ  
Units  
Conditions  
Input Offset  
Input Offset Voltage  
VOS  
-5  
±1  
±2  
83  
+5  
mV  
Input Offset Voltage Drift  
Power Supply Rejection Ratio  
Input Current and Impedance  
Input Bias Current  
ΔVOS/ΔTA  
PSRR  
µV/°C TA= -40°C to+125°C  
dB  
IB  
IB  
2
pA  
Across Temperature  
80  
pA  
pA  
TA= +85°C  
Across Temperature  
IB  
2,000  
±1  
1013||5  
1013||2  
TA= +125°C  
Input Offset Current  
IOS  
ZCM  
ZDIFF  
pA  
Common Mode Input Impedance  
Differential Input Impedance  
Common Mode  
Ω||pF  
Ω||pF  
Common-Mode Input Voltage Range  
Common-Mode Rejection Ratio  
Open Loop Gain  
VCMR  
-0.3  
5.3  
V
CMRR  
78  
dB  
VCM = -0.3V to 5.3V  
VOUT = 0.2V to 4.8V  
DC Open Loop Gain (large signal)  
Output  
AOL  
105  
dB  
Maximum Output Voltage Swing  
VOL  
VOH  
ISC  
4.965  
0.035  
V
V
G = +2, 0.5V Input Overdrive  
G = +2, 0.5V Input Overdrive  
Output Short Circuit Current  
Power Supply  
±20  
mA  
Supply Voltage  
VDD  
IQ  
1.8  
30  
6.0  
V
Quiescent Current per Amplifier  
85  
170  
µA  
IO = 0  
Note 1: For design guidance only; not tested.  
© 2009 Microchip Technology Inc.  
DS22140A-page 3  
MCP6L01/1R/1U/2/4  
TABLE 1-2:  
AC ELECTRICAL SPECIFICATIONS  
Electrical Characteristics: Unless otherwise indicated, TA = 25°C, VDD = +5.0V, VSS = GND, VCM = VSS, VOUT VDD/2,  
VL = VDD/2, RL = 10 kΩ to VL and CL = 60 pF (refer to Figure 1-1).  
Parameters  
Sym  
Min  
Typ  
Max  
Units  
Conditions  
AC Response  
Gain Bandwidth Product  
Phase Margin  
GBWP  
PM  
1.0  
90  
MHz  
°
G = +1  
Slew Rate  
SR  
0.6  
V/µs  
Noise  
Input Noise Voltage  
Input Noise Voltage Density  
Input Noise Current Density  
Eni  
eni  
ini  
6
24  
4
µVP-P f = 0.1 Hz to 10 Hz  
nV/Hz f = 10 kHz  
fA/Hz f = 1 kHz  
TABLE 1-3:  
TEMPERATURE SPECIFICATIONS  
Electrical Characteristics: Unless otherwise indicated, all limits are specified for: VDD = +1.8V to +6.0V, VSS = GND.  
Parameters  
Sym  
Min  
Typ  
Max Units  
Conditions  
Temperature Ranges  
Specified Temperature Range  
Operating Temperature Range  
Storage Temperature Range  
TA  
TA  
TA  
-40  
-40  
-65  
+125  
+125  
+150  
°C  
°C  
°C  
(Note 1)  
Thermal Package Resistances  
Thermal Resistance, 5L-SC70  
Thermal Resistance, 5L-SOT-23  
Thermal Resistance, 8L-SOIC (150 mil)  
Thermal Resistance, 8L-MSOP  
Thermal Resistance, 14L-SOIC  
Thermal Resistance, 14L-TSSOP  
θJA  
θJA  
θJA  
θJA  
θJA  
θJA  
331  
256  
163  
206  
120  
100  
°C/W  
°C/W  
°C/W  
°C/W  
°C/W  
°C/W  
Note 1: Operation must not cause TJ to exceed Maximum Junction Temperature specification (150°C).  
1.3  
Test Circuit  
CF  
6.8 pF  
The circuit used for most DC and AC tests is shown in  
Figure 1-1. This circuit can independently set VCM and  
VOUT; see Equation 1-1. Note that VCM is not the  
circuit’s common mode voltage ((VP + VM)/2), and that  
VOST includes VOS plus the effects (on the input offset  
RG  
100 kΩ  
RF  
100 kΩ  
VDD/2  
VP  
error, VOST) of temperature, CMRR, PSRR and AOL  
.
VDD  
VIN+  
EQUATION 1-1:  
CB1  
100 nF  
CB2  
1 µF  
GDM = RF RG  
MCP6L0X  
VCM = (VP + VDD 2) ⁄ 2  
VOST = VINVIN+  
VIN–  
VOUT = (VDD 2) + (VP VM) + VOST(1 + GDM  
)
VOUT  
VM  
RL  
CL  
Where:  
RG  
RF  
10 kΩ  
60 pF  
100 kΩ  
100 kΩ  
GDM = Differential Mode Gain  
(V/V)  
(V)  
VCM = Op Amp’s Common Mode  
CF  
6.8 pF  
Input Voltage  
VL  
VOST = Op Amp’s Total Input Offset (mV)  
Voltage  
FIGURE 1-1:  
AC and DC Test Circuit for  
Most Specifications.  
DS22140A-page 4  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
2.0  
TYPICAL PERFORMANCE CURVES  
Note:  
The graphs and tables provided following this note are a statistical summary based on a limited number of  
samples and are provided for informational purposes only. The performance characteristics listed herein  
are not tested or guaranteed. In some graphs or tables, the data presented may be outside the specified  
operating range (e.g., outside specified power supply range) and therefore outside the warranted range.  
Note: Unless otherwise indicated, TA = +25°C, VDD = 5.0V, VSS = GND, VCM = VSS, VOUT = VDD/2, VL = VDD/2,  
RL = 10 kΩ to VL and CL = 60 pF.  
3.0  
2.5  
2.0  
1.5  
1.0  
0.6  
0.4  
VDD = 1.8V  
Representative Part  
VCMRH – VDD  
-40°C  
+25°C  
+85°C  
+125°C  
0.2  
0.5  
0.0  
One Wafer Lot  
0.0  
-0.5  
-1.0  
-1.5  
-2.0  
-2.5  
-3.0  
-0.2  
-0.4  
-0.6  
VCMRL – VSS  
-50  
-25  
0
25  
50  
75  
100  
125  
Common Mode Input Voltage (V)  
Ambient Temperature (°C)  
FIGURE 2-1:  
Input Offset Voltage vs.  
FIGURE 2-4:  
Input Common Mode Range  
Common Mode Input Voltage at V = 1.8V.  
Voltage vs. Ambient Temperature.  
DD  
3.0  
2.5  
2.0  
1.5  
100  
95  
VDD = 5.5V  
Representative Part  
-40°C  
+25°C  
+85°C  
1.0  
90  
0.5  
0.0  
+125°C  
PSRR (VCM = VSS  
)
85  
-0.5  
-1.0  
-1.5  
-2.0  
-2.5  
-3.0  
80  
CMRR (VCMRL to VCMRH  
)
75  
70  
-50  
-25  
0
25  
50  
75  
100  
125  
Common Mode Input Voltage (V)  
Ambient Temperature (°C)  
FIGURE 2-2:  
Input Offset Voltage vs.  
FIGURE 2-5:  
CMRR, PSRR vs. Ambient  
Common Mode Input Voltage at V = 5.5V.  
Temperature.  
DD  
-0.50  
100  
90  
80  
70  
60  
50  
40  
30  
20  
Representative Part  
-0.60  
VDD = 1.8V  
-0.70  
-0.80  
-0.90  
-1.00  
PSRR+  
PSRR–  
CMRR  
-1.10  
VDD = 5.5V  
-1.20  
-1.30  
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5  
Output Voltage (V)  
10  
100  
1.2  
1k  
10k  
1.4  
100k  
15  
1.E01  
1.03  
Frequency (Hz)  
FIGURE 2-3:  
Input Offset Voltage vs.  
FIGURE 2-6:  
CMRR, PSRR vs.  
Output Voltage.  
Frequency.  
© 2009 Microchip Technology Inc.  
DS22140A-page 5  
MCP6L01/1R/1U/2/4  
Note: Unless otherwise indicated, TA = +25°C, VDD = +5.0V, VSS = GND, VCM = VSS, VOUT = VDD/2, VL = VDD/2,  
RL = 10 kΩ to VL and CL = 60 pF.  
1.E1-00m2  
6
5
VIN  
G = +2 V/V  
1m  
1.E-03  
100µ  
1.E- 4  
VOUT  
10µ  
1.E-05  
4
1µ  
1.E-06  
3
100n  
1.E-07  
10n  
1.E-08  
1n  
1.E-09  
100p  
1.E-10  
10p  
1.E-11  
1p  
1.E-12  
2
+125°C  
+85°C  
+25°C  
-40°C  
1
0
-1.0 -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 0.0  
Input Voltage (V)  
0.E+00  
1.E-05  
2.E-05  
3.E-05  
4.E-05  
5.E-05  
6.E-05  
7.E-05  
8.E-05  
9.E-05  
1.E-04  
-1  
Time (10 µs/div)  
FIGURE 2-7:  
Measured Input Current vs.  
FIGURE 2-10:  
The MCP6L01/1R/1U/2/4  
Input Voltage (below V ).  
Show No Phase Reversal.  
SS  
180  
160  
140  
120  
100  
80  
120  
100  
80  
0
-30  
-60  
Phase  
60  
-90  
40  
-120  
-150  
-180  
-210  
Gain  
60  
+125°  
C
+85°C  
+25°C  
20  
40  
20  
0
0
-20  
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5  
Power Supply Voltage (V)  
0.1  
1
10 100 1k 10k 100k 1M 10M  
1.E- 1.E+ 1.E+ 1.E+ 1.E+ 1.E+ 1.E+ 1.E+ 1.E+  
Frequency (Hz)  
01 00 01 02 03 04 05 06 07  
FIGURE 2-8:  
Open-Loop Gain, Phase vs.  
FIGURE 2-11:  
Quiescent Current vs.  
Frequency.  
Power Supply Voltage.  
1,000  
30  
25  
20  
15  
10  
5
-40°C  
+25°C  
+85°C  
+125°C  
100  
10  
0
-5  
-10  
-15  
-20  
-25  
-30  
0.1  
1
0
10  
100  
1k  
10k 100k  
0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5  
Power Supply Voltage (V)  
1.E-01 1.E+0 1.E+0 1.E+0 1.E+0 1.E+0 1.E+0  
1Freque2ncy (Hz3)  
4
5
FIGURE 2-9:  
Input Noise Voltage Density  
FIGURE 2-12:  
Output Short Circuit Current  
vs. Frequency.  
vs. Power Supply Voltage.  
DS22140A-page 6  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
Note: Unless otherwise indicated, TA = +25°C, VDD = +5.0V, VSS = GND, VCM = VSS, VOUT = VDD/2, VL = VDD/2,  
RL = 10 kΩ to VL and CL = 60 pF.  
50  
45  
40  
35  
30  
25  
20  
15  
10  
5
1.0  
0.9  
0.8  
0.7  
0.6  
0.5  
0.4  
0.3  
0.2  
0.1  
0.0  
VDD = 5.5V  
Falling Edge  
VDD – VOH  
IOUT  
VOL – VSS  
-IOUT  
VDD = 1.8V  
Rising Edge  
0
-50  
-25  
0
25  
50  
75  
100  
125  
100µ  
1m  
1.E-03  
10m  
1.E-02  
1.E-04  
Output Current Magnitude (A)  
Ambient Temperature (°C)  
FIGURE 2-13:  
Ratio of Output Voltage  
FIGURE 2-16:  
Slew Rate vs. Ambient  
Headroom to Output Current vs. Output Current.  
Temperature.  
0.08  
10  
1
G = +1 V/V  
0.06  
VDD = 5.5V  
0.04  
0.02  
VDD = 1.8V  
0.00  
-0.02  
-0.04  
-0.06  
-0.08  
0.1  
1k  
10k  
100k  
1E+05  
1M  
1.E+06  
0.E+00  
1.E-06  
2.E-06  
3.E-06  
4.E-06  
5.E-06  
6.E-06  
7.E-06  
8.E-06  
9.E-06  
1.E-05  
1.E+03  
1.E+04  
Time (1 µs/div)  
Frequency (Hz)  
FIGURE 2-14:  
Small Signal, Non-Inverting  
FIGURE 2-17:  
Output Voltage Swing vs.  
Pulse Response.  
Frequency.  
5.0  
4.5  
4.0  
3.5  
3.0  
2.5  
2.0  
1.5  
1.0  
0.5  
G = +1 V/V  
0.E+00  
1.E-05  
2.E-05  
3.E-05  
4.E-05  
5.E-05  
6.E-05  
7.E-05  
8.E-05  
9.E-05  
1.E-04  
0.0  
Time (10 µs/div)  
FIGURE 2-15:  
Pulse Response.  
Large Signal, Non-Inverting  
© 2009 Microchip Technology Inc.  
DS22140A-page 7  
MCP6L01/1R/1U/2/4  
NOTES:  
DS22140A-page 8  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
3.0  
PIN DESCRIPTIONS  
Descriptions of the pins are listed in Table 3-1.  
TABLE 3-1:  
PIN FUNCTION TABLE  
MCP6L01 MCP6L01R MCP6L01U MCP6L02 MCP6L04  
Symbol  
Description  
SC-70-5,  
SOT-23-5  
SOIC-8,  
MSOP-8 TSSOP-14  
SOIC-14,  
SOT-23-5  
SOT-23-5  
1
1
4
1
2
1
2
VOUT, VOUTA Output (op amp A)  
4
4
3
VIN–, VINA  
VIN+, VINA  
VDD  
Inverting Input (op amp A)  
Non-inverting Input (op amp A)  
Positive Power Supply  
3
3
1
3
3
+
5
2
5
8
4
2
5
2
5
5
VINB  
+
Non-inverting Input (op amp B)  
Inverting Input (op amp B)  
Output (op amp B)  
6
6
VINB  
7
7
VOUTB  
VOUTC  
4
8
Output (op amp C)  
9
VINC  
VINC  
VSS  
Inverting Input (op amp C)  
Non-inverting Input (op amp C)  
Negative Power Supply  
Non-inverting Input (op amp D)  
Inverting Input (op amp D)  
Output (op amp D)  
10  
11  
12  
13  
14  
+
VIND  
+
VIND  
VOUTD  
NC  
No Internal Connection  
3.1  
Analog Outputs  
3.3  
Power Supply Pins  
The analog output pins (VOUT) are low-impedance  
voltage sources.  
The positive power supply (VDD) is 1.8V to 6.0V higher  
than the negative power supply (VSS). For normal  
operation, the other pins are between VSS and VDD  
.
3.2  
Analog Inputs  
Typically, these parts are used in a single (positive)  
supply configuration. In this case, VSS is connected to  
ground and VDD is connected to the supply. VDD will  
need bypass capacitors.  
The non-inverting and inverting inputs (VIN+, VIN–, …)  
are high-impedance CMOS inputs with low bias  
currents.  
© 2009 Microchip Technology Inc.  
DS22140A-page 9  
MCP6L01/1R/1U/2/4  
NOTES:  
DS22140A-page 10  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
A significant amount of current can flow out of the  
inputs (through the ESD diodes) when the common  
mode voltage (VCM) is below ground (VSS); see  
Figure 2-7. Applications that are high impedance may  
need to limit the usable voltage range.  
4.0  
APPLICATION INFORMATION  
The MCP6L01/1R/1U/2/4 family of op amps is manu-  
factured using Microchip’s state of the art CMOS  
process. It is designed for low cost, low power and  
general purpose applications. The low supply voltage,  
low quiescent current and wide bandwidth makes the  
MCP6L01/1R/1U/2/4 ideal for battery-powered  
applications. This device has high phase margin, which  
makes it stable for larger capacitive load applications.  
4.1.3  
NORMAL OPERATION  
The input stage of the MCP6L01/1R/1U/2/4 op amps  
use two differential CMOS input stages in parallel. One  
operates at low common mode input voltage (VCM),  
while the other operates at high VCM. WIth this  
topology, and at room temperature, the device  
operates with VCM up to 0.3V above VDD and 0.3V  
below VSS (typically at +25°C).  
4.1  
Rail-to-Rail Inputs  
4.1.1  
PHASE REVERSAL  
The MCP6L01/1R/1U/2/4 op amps are designed to  
prevent phase inversion when the input pins exceed  
the supply voltages. Figure 2-10 shows an input  
voltage exceeding both supplies without any phase  
reversal.  
The transition between the two input stages occurs  
when VCM = VDD – 1.1V. For the best distortion and  
gain linearity, with non-inverting gains, avoid this region  
of operation.  
4.2  
Rail-to-Rail Output  
4.1.2  
INPUT VOLTAGE AND CURRENT  
LIMITS  
The output voltage range of the MCP6L01/1R/1U/2/4  
op amps is VDD – 35 mV (minimum) and VSS + 35 mV  
(maximum) when RL = 10 kΩ is connected to VDD/2  
and VDD = 5.0V. Refer to Figure 2-13 for more informa-  
tion.  
In order to prevent damage and/or improper operation  
of these amplifiers, the circuit they are in must limit the  
currents (and voltages) at the input pins (see  
Section 1.1 “Absolute Maximum Ratings †”).  
Figure 4-1 shows the recommended approach to  
protecting these inputs. The internal ESD diodes  
prevent the input pins (VIN+ and VIN–) from going too  
far below ground, and the resistors R1 and R2 limit the  
possible current drawn out of the input pins. Diodes D1  
and D2 prevent the input pins (VIN+ and VIN–) from  
going too far above VDD, and dump any currents onto  
4.3  
Capacitive Loads  
Driving large capacitive loads can cause stability  
problems for voltage feedback op amps. As the load  
capacitance increases, the feedback loop’s phase  
margin decreases and the closed-loop bandwidth is  
reduced. This produces gain peaking in the frequency  
response, with overshoot and ringing in the step  
response.  
VDD  
.
VDD  
When driving large capacitive loads with these op  
amps (e.g., > 100 pF when G = +1), a small series  
resistor at the output (RISO in Figure 4-2) improves the  
feedback loop’s stability by making the output load  
resistive at higher frequencies; the bandwidth will  
usually be decreased.  
D1  
R1  
D2  
V1  
V2  
MCP6L0X  
RG  
RF  
RISO  
CL  
R2  
VOUT  
R3  
MCP6L0X  
RN  
VSS – (minimum expected V1)  
R1 >  
2 mA  
VSS – (minimum expected V2)  
2 mA  
R2 >  
FIGURE 4-2:  
Output Resistor, R  
ISO  
stabilizes large capacitive loads.  
FIGURE 4-1:  
Inputs.  
Protecting the Analog  
Bench measurements are helpful in choosing RISO  
Adjust RISO so that a small signal step response (see  
Figure 2-14) has reasonable overshoot (e.g., 4%).  
.
© 2009 Microchip Technology Inc.  
DS22140A-page 11  
MCP6L01/1R/1U/2/4  
4.4  
Supply Bypass  
Guard Ring  
VIN– VIN+  
With this family of operational amplifiers, the power  
supply pin (VDD for single supply) should have a local  
bypass capacitor (i.e., 0.01 µF to 0.1 µF) within 2 mm  
for good high frequency performance. It also needs a  
bulk capacitor (i.e., 1 µF or larger) within 100 mm to  
provide large, slow currents. This bulk capacitor can be  
shared with other nearby analog parts.  
FIGURE 4-4:  
Layout.  
Example Guard Ring  
4.5  
Unused Op Amps  
1. Inverting Amplifiers (Figure 4-4) and Transim-  
pedance Gain Amplifiers (convert current to  
voltage, such as photo detectors).  
An unused op amp in a quad package (e.g., MCP6L04)  
should be configured as shown in Figure 4-3. These  
circuits prevent the output from toggling and causing  
crosstalk. Circuit A sets the op amp at its minimum  
noise gain. The resistor divider produces any desired  
reference voltage within the output voltage range of the  
op amp; the op amp buffers that reference voltage.  
Circuit B uses the minimum number of components  
and operates as a comparator, but it may draw more  
current.  
a) Connect the guard ring to the non-inverting  
input pin (VIN+); this biases the guard ring  
to the same reference voltage as the op  
amp’s input (e.g., VDD/2 or ground).  
b) Connect the inverting pin (VIN–) to the input  
with a wire that does not touch the PCB sur-  
face.  
2. Non-inverting Gain and Unity-Gain Buffer.  
a) Connect the guard ring to the inverting input  
pin (VIN–); this biases the guard ring to the  
common mode input voltage.  
¼ MCP6L04 (A)  
VDD  
¼ MCP6L04 (B)  
VDD  
b) Connect the non-inverting pin (VIN+) to the  
input with a wire that does not touch the  
PCB surface.  
VDD  
R1  
R2  
VREF  
4.7  
Application Circuit  
4.7.1  
ACTIVE LOW-PASS FILTER  
R2  
------------------  
The MCP6L01/1R/1U/2/4 op amp’s low input bias  
current makes it possible for the designer to use larger  
resistors and smaller capacitors for active low-pass  
filter applications. However, as the resistance  
increases, the noise generated also increases. Para-  
sitic capacitances and the large value resistors could  
also modify the frequency response. These trade-offs  
need to be considered when selecting circuit elements.  
VREF = VDD  
R1 + R2  
FIGURE 4-3:  
Unused Op Amps.  
4.6  
PCB Surface Leakage  
In applications where low input bias current is critical,  
PCB (printed circuit board) surface leakage effects  
need to be considered. Surface leakage is caused by  
humidity, dust or other contamination on the board.  
Under low humidity conditions, a typical resistance  
between nearby traces is 1012Ω. A 5V difference would  
cause 5 pA of current to flow; this is greater than this  
family’s bias current at +25°C (1 pA, typical).  
Figure 4-5 shows a second-order Bessel filter with  
100 Hz cutoff frequency and a gain of +1 V/V. The  
component values were selected using Microchip’s  
FilterLab® software; the capacitor values were reduced  
to a more common range.  
C1  
100 pF  
The easiest way to reduce surface leakage is to use a  
guard ring around sensitive pins (or traces). The guard  
ring is biased at the same voltage as the sensitive pin.  
Figure 4-4 shows an example of this type of layout..  
R1  
R2  
MCP6L01  
11.3 kΩ 20.5 kΩ  
VIN  
VOUT  
C2  
68 pF  
FIGURE 4-5:  
Bessel Filter.  
DS22140A-page 12  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
5.4  
Application Notes  
5.0  
DESIGN AIDS  
The following Microchip Application Notes are  
available on the Microchip web site at www.microchip.  
com/appnotes and are recommended as supplemental  
reference resources.  
Microchip provides the basic design aids needed for  
the MCP6L01/1R/1U/2/4 family of op amps.  
5.1  
FilterLab® Software  
ADN003: “Select the Right Operational Amplifier  
for your Filtering Circuits”, DS21821  
Microchip’s FilterLab® software is an innovative  
software tool that simplifies analog active filter (using  
op amps) design. Available at no cost from the Micro-  
chip web site at www.microchip.com/filterlab, the Filter-  
Lab design tool provides full schematic diagrams of the  
filter circuit with component values. It also outputs the  
filter circuit in SPICE format, which can be used with  
the macro model to simulate actual filter performance.  
AN722: “Operational Amplifier Topologies and DC  
Specifications”, DS00722  
AN723: “Operational Amplifier AC Specifications  
and Applications”, DS00723  
AN884: “Driving Capacitive Loads With Op  
Amps”, DS00884  
AN990: “Analog Sensor Conditioning Circuits –  
An Overview”, DS00990  
5.2  
Microchip Advanced Part Selector  
(MAPS)  
MAPS is a software tool that helps efficiently identify  
Microchip devices that fit particular design  
a
requirement. Available at no cost from the Microchip  
website at www.microchip.com/maps, the MAPS is an  
overall selection tool for Microchip’s product portfolio  
that includes Analog, Memory, MCUs and DSCs. Using  
this tool, a customer can define a filter to sort features  
for a parametric search of devices and export side-by-  
side technical comparison reports. Helpful links are  
also provided for Data sheets, Purchase and Sampling  
of Microchip parts.  
5.3  
Analog Demonstration and  
Evaluation Boards  
Microchip offers a broad spectrum of Analog Demon-  
stration and Evaluation Boards that are designed to  
help customers achieve faster time to market. For a  
complete listing of these boards and their correspond-  
ing user’s guides and technical information, visit the  
Microchip web site at www.microchip.com/analog  
tools.  
Some boards that are especially useful are:  
• MCP6XXX Amplifier Evaluation Board 1  
• MCP6XXX Amplifier Evaluation Board 2  
• MCP6XXX Amplifier Evaluation Board 3  
• MCP6XXX Amplifier Evaluation Board 4  
• Active Filter Demo Board Kit  
• 5/6-Pin SOT-23 Evaluation Board, P/N VSUPEV2  
• 8-Pin SOIC/MSOP/TSSOP/DIP Evaluation Board,  
P/N SOIC8EV  
• 14-Pin SOIC/TSSOP/DIP Evaluation Board, P/N  
SOIC14EV  
© 2009 Microchip Technology Inc.  
DS22140A-page 13  
MCP6L01/1R/1U/2/4  
NOTES:  
DS22140A-page 14  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
6.0  
6.1  
PACKAGING INFORMATION  
Package Marking Information  
5-Lead SC-70 (MCP6L01)  
Example:  
Device  
Code  
BKNN  
BK25  
XXNN  
MCP6L01  
Note: Applies to 5-Lead SC-70.  
Example:  
5-Lead SOT-23 (MCP6L01/1R/1U)  
5
4
5
4
3
Device  
MCP6L01  
Code  
VXNN  
VYNN  
VZNN  
VX25  
MCP6L01R  
MCP6L01U  
XXNN  
1
2
3
1
2
Note: Applies to 5-Lead SOT-23.  
8-Lead SOIC (150 mil) (MCP6L02)  
Example:  
XXXXXXXX  
XXXXYYWW  
MCP6L02E  
e
3
SN^^0908  
256  
NNN  
Example:  
8-Lead MSOP (MCP6L02)  
XXXXXX  
YWWNNN  
6L02E  
908256  
Legend: XX...X Customer-specific information  
Y
YY  
WW  
NNN  
Year code (last digit of calendar year)  
Year code (last 2 digits of calendar year)  
Week code (week of January 1 is week ‘01’)  
Alphanumeric traceability code  
e
3
Pb-free JEDEC designator for Matte Tin (Sn)  
*
This package is Pb-free. The Pb-free JEDEC designator (  
can be found on the outer packaging for this package.  
)
e3  
Note: In the event the full Microchip part number cannot be marked on one line, it will  
be carried over to the next line, thus limiting the number of available  
characters for customer-specific information.  
© 2009 Microchip Technology Inc.  
DS22140A-page 15  
MCP6L01/1R/1U/2/4  
Package Marking Information  
14-Lead SOIC (150 mil) (MCP6L04)  
Example:  
MCP6L04  
XXXXXXXXXX  
XXXXXXXXXX  
YYWWNNN  
e
3
E/SL
0908256  
Example:  
14-Lead TSSOP (MCP6L04)  
XXXXXX  
YYWW  
6L04STE  
0908  
NNN  
256  
DS22140A-page 16  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
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© 2009 Microchip Technology Inc.  
DS22140A-page 17  
MCP6L01/1R/1U/2/4  
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DS22140A-page 18  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
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ꢕ#ꢉꢆ!ꢇ%%  
6,ꢅꢍꢉꢋꢋꢈ=ꢃ!#ꢌ  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈ=ꢃ!#ꢌ  
6,ꢅꢍꢉꢋꢋꢈ4ꢅꢆꢓ#ꢌ  
.ꢇꢇ#ꢈ4ꢅꢆꢓ#ꢌ  
.ꢇꢇ#ꢎꢍꢃꢆ#  
.ꢇꢇ#ꢈꢔꢆꢓꢋꢅ  
4ꢅꢉ!ꢈꢗꢌꢃꢊ/ꢆꢅ    
4ꢅꢉ!ꢈ=ꢃ!#ꢌ  
ꢅꢀ  
ꢔꢑ  
ꢔꢀ  
"
"ꢀ  
4
ꢀꢁꢝꢐꢈ)ꢕ*  
ꢐꢁꢝꢐ  
ꢐꢁ;ꢝ  
ꢐꢁꢐꢐ  
ꢑꢁꢑꢐ  
ꢀꢁꢛꢐ  
ꢑꢁꢒꢐ  
ꢐꢁꢀꢐ  
ꢐꢁꢛ(  
ꢐꢞ  
M
M
M
M
M
M
M
M
M
M
M
ꢀꢁꢖ(  
ꢀꢁꢛꢐ  
ꢐꢁꢀ(  
ꢛꢁꢑꢐ  
ꢀꢁ;ꢐ  
ꢛꢁꢀꢐ  
ꢐꢁ9ꢐ  
ꢐꢁ;ꢐ  
ꢛꢐꢞ  
4ꢀ  
8
ꢐꢁꢐ;  
ꢐꢁꢑꢐ  
ꢐꢁꢑ9  
ꢐꢁ(ꢀ  
ꢜꢔꢊꢃꢉꢝ  
ꢀꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆ ꢈꢂꢈꢉꢆ!ꢈ"ꢀꢈ!ꢇꢈꢆꢇ#ꢈꢃꢆꢊꢋ$!ꢅꢈꢄꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢁꢈꢏꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢈ ꢌꢉꢋꢋꢈꢆꢇ#ꢈꢅ&ꢊꢅꢅ!ꢈꢐꢁꢀꢑꢒꢈꢄꢄꢈꢎꢅꢍꢈ ꢃ!ꢅꢁ  
ꢑꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆꢃꢆꢓꢈꢉꢆ!ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢃꢆꢓꢈꢎꢅꢍꢈꢔꢕꢏ"ꢈ'ꢀꢖꢁ(ꢏꢁ  
)ꢕ*+ )ꢉ ꢃꢊꢈꢂꢃꢄꢅꢆ ꢃꢇꢆꢁꢈꢗꢌꢅꢇꢍꢅ#ꢃꢊꢉꢋꢋꢘꢈꢅ&ꢉꢊ#ꢈ,ꢉꢋ$ꢅꢈ ꢌꢇ-ꢆꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ ꢁ  
ꢏꢃꢊꢍꢇꢊꢌꢃꢎ ꢊꢌꢆꢇꢋꢇꢓꢘ ꢂꢍꢉ-ꢃꢆꢓ *ꢐꢖꢜꢐꢝꢀ)  
© 2009 Microchip Technology Inc.  
DS22140A-page 19  
MCP6L01/1R/1U/2/4  
"ꢁꢂꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢆ#ꢋꢌꢓꢔꢆꢍꢎꢄꢈꢈꢆꢏꢐꢊꢈꢋꢑꢃꢆꢇꢄꢌ$ꢄ%ꢃꢆꢕ#ꢍꢖꢆꢗ#ꢍꢏꢇꢛ  
ꢜꢔꢊꢃꢝ .ꢇꢍꢈ#ꢌꢅꢈꢄꢇ #ꢈꢊ$ꢍꢍꢅꢆ#ꢈꢎꢉꢊ/ꢉꢓꢅꢈ!ꢍꢉ-ꢃꢆꢓ 0ꢈꢎꢋꢅꢉ ꢅꢈ ꢅꢅꢈ#ꢌꢅꢈꢏꢃꢊꢍꢇꢊꢌꢃꢎꢈ1ꢉꢊ/ꢉꢓꢃꢆꢓꢈꢕꢎꢅꢊꢃ%ꢃꢊꢉ#ꢃꢇꢆꢈꢋꢇꢊꢉ#ꢅ!ꢈꢉ#ꢈ  
ꢌ##ꢎ+22---ꢁꢄꢃꢊꢍꢇꢊꢌꢃꢎꢁꢊꢇꢄ2ꢎꢉꢊ/ꢉꢓꢃꢆꢓ  
D
N
E
E1  
NOTE 1  
2
b
1
e
c
φ
A2  
A
L
L1  
A1  
3ꢆꢃ#  
ꢏꢙ44ꢙꢏ"ꢗ"ꢚꢕ  
ꢂꢃꢄꢅꢆ ꢃꢇꢆꢈ4ꢃꢄꢃ#  
ꢏꢙ5  
56ꢏ  
ꢏꢔ7  
5$ꢄ8ꢅꢍꢈꢇ%ꢈ1ꢃꢆ  
1ꢃ#ꢊꢌ  
5
;
ꢐꢁ9(ꢈ)ꢕ*  
6,ꢅꢍꢉꢋꢋꢈ:ꢅꢃꢓꢌ#  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈꢗꢌꢃꢊ/ꢆꢅ    
ꢕ#ꢉꢆ!ꢇ%%ꢈ  
6,ꢅꢍꢉꢋꢋꢈ=ꢃ!#ꢌ  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈ=ꢃ!#ꢌ  
6,ꢅꢍꢉꢋꢋꢈ4ꢅꢆꢓ#ꢌ  
.ꢇꢇ#ꢈ4ꢅꢆꢓ#ꢌ  
M
ꢐꢁꢒ(  
ꢐꢁꢐꢐ  
M
ꢐꢁ;(  
ꢀꢁꢀꢐ  
ꢐꢁꢝ(  
ꢐꢁꢀ(  
ꢔꢑ  
ꢔꢀ  
"
"ꢀ  
M
ꢖꢁꢝꢐꢈ)ꢕ*  
ꢛꢁꢐꢐꢈ)ꢕ*  
ꢛꢁꢐꢐꢈ)ꢕ*  
ꢐꢁ9ꢐ  
4
ꢐꢁꢖꢐ  
ꢐꢁ;ꢐ  
.ꢇꢇ#ꢎꢍꢃꢆ#  
.ꢇꢇ#ꢈꢔꢆꢓꢋꢅ  
4ꢀ  
ꢐꢁꢝ(ꢈꢚ".  
M
ꢐꢞ  
;ꢞ  
4ꢅꢉ!ꢈꢗꢌꢃꢊ/ꢆꢅ    
4ꢅꢉ!ꢈ=ꢃ!#ꢌ  
8
ꢐꢁꢐ;  
ꢐꢁꢑꢑ  
M
M
ꢐꢁꢑꢛ  
ꢐꢁꢖꢐ  
ꢜꢔꢊꢃꢉꢝ  
ꢀꢁ 1ꢃꢆꢈꢀꢈ,ꢃ $ꢉꢋꢈꢃꢆ!ꢅ&ꢈ%ꢅꢉ#$ꢍꢅꢈꢄꢉꢘꢈ,ꢉꢍꢘ0ꢈ8$#ꢈꢄ$ #ꢈ8ꢅꢈꢋꢇꢊꢉ#ꢅ!ꢈ-ꢃ#ꢌꢃꢆꢈ#ꢌꢅꢈꢌꢉ#ꢊꢌꢅ!ꢈꢉꢍꢅꢉꢁ  
ꢑꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆ ꢈꢂꢈꢉꢆ!ꢈ"ꢀꢈ!ꢇꢈꢆꢇ#ꢈꢃꢆꢊꢋ$!ꢅꢈꢄꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢁꢈꢏꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢈ ꢌꢉꢋꢋꢈꢆꢇ#ꢈꢅ&ꢊꢅꢅ!ꢈꢐꢁꢀ(ꢈꢄꢄꢈꢎꢅꢍꢈ ꢃ!ꢅꢁ  
ꢛꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆꢃꢆꢓꢈꢉꢆ!ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢃꢆꢓꢈꢎꢅꢍꢈꢔꢕꢏ"ꢈ'ꢀꢖꢁ(ꢏꢁ  
)ꢕ*+ )ꢉ ꢃꢊꢈꢂꢃꢄꢅꢆ ꢃꢇꢆꢁꢈꢗꢌꢅꢇꢍꢅ#ꢃꢊꢉꢋꢋꢘꢈꢅ&ꢉꢊ#ꢈ,ꢉꢋ$ꢅꢈ ꢌꢇ-ꢆꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ ꢁ  
ꢚ".+ ꢚꢅ%ꢅꢍꢅꢆꢊꢅꢈꢂꢃꢄꢅꢆ ꢃꢇꢆ0ꢈ$ $ꢉꢋꢋꢘꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ0ꢈ%ꢇꢍꢈꢃꢆ%ꢇꢍꢄꢉ#ꢃꢇꢆꢈꢎ$ꢍꢎꢇ ꢅ ꢈꢇꢆꢋꢘꢁ  
ꢏꢃꢊꢍꢇꢊꢌꢃꢎ ꢊꢌꢆꢇꢋꢇꢓꢘ ꢂꢍꢉ-ꢃꢆꢓ *ꢐꢖꢜꢀꢀꢀ)  
DS22140A-page 20  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
"ꢁꢂꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢆꢍꢎꢄꢈꢈꢆꢏꢐꢊꢈꢋꢑꢃꢆꢕꢍꢜꢖꢆMꢆꢜꢄꢓꢓꢔ'(ꢆ!)*ꢚꢆꢎꢎꢆ+ꢔꢅ,ꢆꢗꢍꢏ-ꢘꢛ  
ꢜꢔꢊꢃꢝ .ꢇꢍꢈ#ꢌꢅꢈꢄꢇ #ꢈꢊ$ꢍꢍꢅꢆ#ꢈꢎꢉꢊ/ꢉꢓꢅꢈ!ꢍꢉ-ꢃꢆꢓ 0ꢈꢎꢋꢅꢉ ꢅꢈ ꢅꢅꢈ#ꢌꢅꢈꢏꢃꢊꢍꢇꢊꢌꢃꢎꢈ1ꢉꢊ/ꢉꢓꢃꢆꢓꢈꢕꢎꢅꢊꢃ%ꢃꢊꢉ#ꢃꢇꢆꢈꢋꢇꢊꢉ#ꢅ!ꢈꢉ#ꢈ  
ꢌ##ꢎ+22---ꢁꢄꢃꢊꢍꢇꢊꢌꢃꢎꢁꢊꢇꢄ2ꢎꢉꢊ/ꢉꢓꢃꢆꢓ  
D
e
N
E
E1  
NOTE 1  
1
2
3
α
h
b
h
c
φ
A2  
A
L
A1  
L1  
β
3ꢆꢃ#  
ꢏꢙ44ꢙꢏ"ꢗ"ꢚꢕ  
ꢂꢃꢄꢅꢆ ꢃꢇꢆꢈ4ꢃꢄꢃ#  
ꢏꢙ5  
56ꢏ  
ꢏꢔ7  
5$ꢄ8ꢅꢍꢈꢇ%ꢈ1ꢃꢆ  
1ꢃ#ꢊꢌ  
5
;
ꢀꢁꢑꢒꢈ)ꢕ*  
6,ꢅꢍꢉꢋꢋꢈ:ꢅꢃꢓꢌ#  
M
ꢀꢁꢑ(  
ꢐꢁꢀꢐ  
M
M
M
ꢀꢁꢒ(  
M
ꢐꢁꢑ(  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈꢗꢌꢃꢊ/ꢆꢅ    
ꢕ#ꢉꢆ!ꢇ%%ꢈꢈ  
ꢔꢑ  
ꢔꢀ  
"
6,ꢅꢍꢉꢋꢋꢈ=ꢃ!#ꢌ  
9ꢁꢐꢐꢈ)ꢕ*  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈ=ꢃ!#ꢌ  
6,ꢅꢍꢉꢋꢋꢈ4ꢅꢆꢓ#ꢌ  
*ꢌꢉꢄ%ꢅꢍꢈ@ꢇꢎ#ꢃꢇꢆꢉꢋA  
.ꢇꢇ#ꢈ4ꢅꢆꢓ#ꢌ  
"ꢀ  
ꢛꢁꢝꢐꢈ)ꢕ*  
ꢖꢁꢝꢐꢈ)ꢕ*  
ꢐꢁꢑ(  
ꢐꢁꢖꢐ  
M
M
ꢐꢁ(ꢐ  
ꢀꢁꢑꢒ  
4
.ꢇꢇ#ꢎꢍꢃꢆ#  
.ꢇꢇ#ꢈꢔꢆꢓꢋꢅ  
4ꢅꢉ!ꢈꢗꢌꢃꢊ/ꢆꢅ    
4ꢅꢉ!ꢈ=ꢃ!#ꢌ  
ꢏꢇꢋ!ꢈꢂꢍꢉ%#ꢈꢔꢆꢓꢋꢅꢈ  
ꢏꢇꢋ!ꢈꢂꢍꢉ%#ꢈꢔꢆꢓꢋꢅꢈ)ꢇ##ꢇꢄ  
4ꢀ  
ꢀꢁꢐꢖꢈꢚ".  
ꢐꢞ  
ꢐꢁꢀꢒ  
ꢐꢁꢛꢀ  
(ꢞ  
M
M
M
M
M
;ꢞ  
8
ꢐꢁꢑ(  
ꢐꢁ(ꢀ  
ꢀ(ꢞ  
(ꢞ  
ꢀ(ꢞ  
ꢜꢔꢊꢃꢉꢝ  
ꢀꢁ 1ꢃꢆꢈꢀꢈ,ꢃ $ꢉꢋꢈꢃꢆ!ꢅ&ꢈ%ꢅꢉ#$ꢍꢅꢈꢄꢉꢘꢈ,ꢉꢍꢘ0ꢈ8$#ꢈꢄ$ #ꢈ8ꢅꢈꢋꢇꢊꢉ#ꢅ!ꢈ-ꢃ#ꢌꢃꢆꢈ#ꢌꢅꢈꢌꢉ#ꢊꢌꢅ!ꢈꢉꢍꢅꢉꢁ  
ꢑꢁ ꢟꢈꢕꢃꢓꢆꢃ%ꢃꢊꢉꢆ#ꢈ*ꢌꢉꢍꢉꢊ#ꢅꢍꢃ #ꢃꢊꢁ  
ꢛꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆ ꢈꢂꢈꢉꢆ!ꢈ"ꢀꢈ!ꢇꢈꢆꢇ#ꢈꢃꢆꢊꢋ$!ꢅꢈꢄꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢁꢈꢏꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢈ ꢌꢉꢋꢋꢈꢆꢇ#ꢈꢅ&ꢊꢅꢅ!ꢈꢐꢁꢀ(ꢈꢄꢄꢈꢎꢅꢍꢈ ꢃ!ꢅꢁ  
ꢖꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆꢃꢆꢓꢈꢉꢆ!ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢃꢆꢓꢈꢎꢅꢍꢈꢔꢕꢏ"ꢈ'ꢀꢖꢁ(ꢏꢁ  
)ꢕ*+ )ꢉ ꢃꢊꢈꢂꢃꢄꢅꢆ ꢃꢇꢆꢁꢈꢗꢌꢅꢇꢍꢅ#ꢃꢊꢉꢋꢋꢘꢈꢅ&ꢉꢊ#ꢈ,ꢉꢋ$ꢅꢈ ꢌꢇ-ꢆꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ ꢁ  
ꢚ".+ ꢚꢅ%ꢅꢍꢅꢆꢊꢅꢈꢂꢃꢄꢅꢆ ꢃꢇꢆ0ꢈ$ $ꢉꢋꢋꢘꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ0ꢈ%ꢇꢍꢈꢃꢆ%ꢇꢍꢄꢉ#ꢃꢇꢆꢈꢎ$ꢍꢎꢇ ꢅ ꢈꢇꢆꢋꢘꢁ  
ꢏꢃꢊꢍꢇꢊꢌꢃꢎ ꢊꢌꢆꢇꢋꢇꢓꢘ ꢂꢍꢉ-ꢃꢆꢓ *ꢐꢖꢜꢐ(ꢒ)  
© 2009 Microchip Technology Inc.  
DS22140A-page 21  
MCP6L01/1R/1U/2/4  
"ꢁꢂꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢆꢍꢎꢄꢈꢈꢆꢏꢐꢊꢈꢋꢑꢃꢆꢕꢍꢜꢖꢆMꢆꢜꢄꢓꢓꢔ'(ꢆ!)*ꢚꢆꢎꢎꢆ+ꢔꢅ,ꢆꢗꢍꢏ-ꢘꢛ  
ꢜꢔꢊꢃꢝ .ꢇꢍꢈ#ꢌꢅꢈꢄꢇ #ꢈꢊ$ꢍꢍꢅꢆ#ꢈꢎꢉꢊ/ꢉꢓꢅꢈ!ꢍꢉ-ꢃꢆꢓ 0ꢈꢎꢋꢅꢉ ꢅꢈ ꢅꢅꢈ#ꢌꢅꢈꢏꢃꢊꢍꢇꢊꢌꢃꢎꢈ1ꢉꢊ/ꢉꢓꢃꢆꢓꢈꢕꢎꢅꢊꢃ%ꢃꢊꢉ#ꢃꢇꢆꢈꢋꢇꢊꢉ#ꢅ!ꢈꢉ#ꢈ  
ꢌ##ꢎ+22---ꢁꢄꢃꢊꢍꢇꢊꢌꢃꢎꢁꢊꢇꢄ2ꢎꢉꢊ/ꢉꢓꢃꢆꢓ  
DS22140A-page 22  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
./ꢁꢂꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢆꢍꢎꢄꢈꢈꢆꢏꢐꢊꢈꢋꢑꢃꢆꢕꢍꢂꢖꢆMꢆꢜꢄꢓꢓꢔ'(ꢆ!)*ꢚꢆꢎꢎꢆ+ꢔꢅ,ꢆꢗꢍꢏ-ꢘꢛ  
ꢜꢔꢊꢃꢝ .ꢇꢍꢈ#ꢌꢅꢈꢄꢇ #ꢈꢊ$ꢍꢍꢅꢆ#ꢈꢎꢉꢊ/ꢉꢓꢅꢈ!ꢍꢉ-ꢃꢆꢓ 0ꢈꢎꢋꢅꢉ ꢅꢈ ꢅꢅꢈ#ꢌꢅꢈꢏꢃꢊꢍꢇꢊꢌꢃꢎꢈ1ꢉꢊ/ꢉꢓꢃꢆꢓꢈꢕꢎꢅꢊꢃ%ꢃꢊꢉ#ꢃꢇꢆꢈꢋꢇꢊꢉ#ꢅ!ꢈꢉ#ꢈ  
ꢌ##ꢎ+22---ꢁꢄꢃꢊꢍꢇꢊꢌꢃꢎꢁꢊꢇꢄ2ꢎꢉꢊ/ꢉꢓꢃꢆꢓ  
D
N
E
E1  
NOTE 1  
1
2
3
e
h
b
α
h
c
φ
A2  
A
L
A1  
β
L1  
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5$ꢄ8ꢅꢍꢈꢇ%ꢈ1ꢃꢆ  
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ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈꢗꢌꢃꢊ/ꢆꢅ    
ꢕ#ꢉꢆ!ꢇ%%ꢈꢈꢟ  
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6,ꢅꢍꢉꢋꢋꢈ4ꢅꢆꢓ#ꢌ  
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.ꢇꢇ#ꢈ4ꢅꢆꢓ#ꢌ  
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ꢏꢇꢋ!ꢈꢂꢍꢉ%#ꢈꢔꢆꢓꢋꢅꢈ)ꢇ##ꢇꢄ  
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ꢀꢁ 1ꢃꢆꢈꢀꢈ,ꢃ $ꢉꢋꢈꢃꢆ!ꢅ&ꢈ%ꢅꢉ#$ꢍꢅꢈꢄꢉꢘꢈ,ꢉꢍꢘ0ꢈ8$#ꢈꢄ$ #ꢈ8ꢅꢈꢋꢇꢊꢉ#ꢅ!ꢈ-ꢃ#ꢌꢃꢆꢈ#ꢌꢅꢈꢌꢉ#ꢊꢌꢅ!ꢈꢉꢍꢅꢉꢁ  
ꢑꢁ ꢟꢈꢕꢃꢓꢆꢃ%ꢃꢊꢉꢆ#ꢈ*ꢌꢉꢍꢉꢊ#ꢅꢍꢃ #ꢃꢊꢁ  
ꢛꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆ ꢈꢂꢈꢉꢆ!ꢈ"ꢀꢈ!ꢇꢈꢆꢇ#ꢈꢃꢆꢊꢋ$!ꢅꢈꢄꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢁꢈꢏꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢈ ꢌꢉꢋꢋꢈꢆꢇ#ꢈꢅ&ꢊꢅꢅ!ꢈꢐꢁꢀ(ꢈꢄꢄꢈꢎꢅꢍꢈ ꢃ!ꢅꢁ  
ꢖꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆꢃꢆꢓꢈꢉꢆ!ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢃꢆꢓꢈꢎꢅꢍꢈꢔꢕꢏ"ꢈ'ꢀꢖꢁ(ꢏꢁ  
)ꢕ*+ )ꢉ ꢃꢊꢈꢂꢃꢄꢅꢆ ꢃꢇꢆꢁꢈꢗꢌꢅꢇꢍꢅ#ꢃꢊꢉꢋꢋꢘꢈꢅ&ꢉꢊ#ꢈ,ꢉꢋ$ꢅꢈ ꢌꢇ-ꢆꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ ꢁ  
ꢚ".+ ꢚꢅ%ꢅꢍꢅꢆꢊꢅꢈꢂꢃꢄꢅꢆ ꢃꢇꢆ0ꢈ$ $ꢉꢋꢋꢘꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ0ꢈ%ꢇꢍꢈꢃꢆ%ꢇꢍꢄꢉ#ꢃꢇꢆꢈꢎ$ꢍꢎꢇ ꢅ ꢈꢇꢆꢋꢘꢁ  
ꢏꢃꢊꢍꢇꢊꢌꢃꢎ ꢊꢌꢆꢇꢋꢇꢓꢘ ꢂꢍꢉ-ꢃꢆꢓ *ꢐꢖꢜꢐ9()  
© 2009 Microchip Technology Inc.  
DS22140A-page 23  
MCP6L01/1R/1U/2/4  
ꢜꢔꢊꢃꢝ .ꢇꢍꢈ#ꢌꢅꢈꢄꢇ #ꢈꢊ$ꢍꢍꢅꢆ#ꢈꢎꢉꢊ/ꢉꢓꢅꢈ!ꢍꢉ-ꢃꢆꢓ 0ꢈꢎꢋꢅꢉ ꢅꢈ ꢅꢅꢈ#ꢌꢅꢈꢏꢃꢊꢍꢇꢊꢌꢃꢎꢈ1ꢉꢊ/ꢉꢓꢃꢆꢓꢈꢕꢎꢅꢊꢃ%ꢃꢊꢉ#ꢃꢇꢆꢈꢋꢇꢊꢉ#ꢅ!ꢈꢉ#ꢈ  
ꢌ##ꢎ+22---ꢁꢄꢃꢊꢍꢇꢊꢌꢃꢎꢁꢊꢇꢄ2ꢎꢉꢊ/ꢉꢓꢃꢆꢓ  
DS22140A-page 24  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
./ꢁꢂꢃꢄꢅꢆꢇꢈꢄꢉꢊꢋꢌꢆꢒ0ꢋꢑꢆꢍ0ꢓꢋꢑ$ꢆꢍꢎꢄꢈꢈꢆꢏꢐꢊꢈꢋꢑꢃꢆꢕꢍꢒꢖꢆMꢆ/)/ꢆꢎꢎꢆ+ꢔꢅ,ꢆꢗꢒꢍꢍꢏꢇꢛ  
ꢜꢔꢊꢃꢝ .ꢇꢍꢈ#ꢌꢅꢈꢄꢇ #ꢈꢊ$ꢍꢍꢅꢆ#ꢈꢎꢉꢊ/ꢉꢓꢅꢈ!ꢍꢉ-ꢃꢆꢓ 0ꢈꢎꢋꢅꢉ ꢅꢈ ꢅꢅꢈ#ꢌꢅꢈꢏꢃꢊꢍꢇꢊꢌꢃꢎꢈ1ꢉꢊ/ꢉꢓꢃꢆꢓꢈꢕꢎꢅꢊꢃ%ꢃꢊꢉ#ꢃꢇꢆꢈꢋꢇꢊꢉ#ꢅ!ꢈꢉ#ꢈ  
ꢌ##ꢎ+22---ꢁꢄꢃꢊꢍꢇꢊꢌꢃꢎꢁꢊꢇꢄ2ꢎꢉꢊ/ꢉꢓꢃꢆꢓ  
D
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NOTE 1  
1
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e
b
c
φ
A2  
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A1  
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L1  
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56ꢏ  
ꢏꢔ7  
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6,ꢅꢍꢉꢋꢋꢈ:ꢅꢃꢓꢌ#  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈꢗꢌꢃꢊ/ꢆꢅ    
ꢕ#ꢉꢆ!ꢇ%%ꢈ  
6,ꢅꢍꢉꢋꢋꢈ=ꢃ!#ꢌ  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈ=ꢃ!#ꢌ  
ꢏꢇꢋ!ꢅ!ꢈ1ꢉꢊ/ꢉꢓꢅꢈ4ꢅꢆꢓ#ꢌ  
.ꢇꢇ#ꢈ4ꢅꢆꢓ#ꢌ  
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"
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4
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.ꢇꢇ#ꢈꢔꢆꢓꢋꢅ  
4ꢅꢉ!ꢈꢗꢌꢃꢊ/ꢆꢅ    
4ꢅꢉ!ꢈ=ꢃ!#ꢌ  
4ꢀ  
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ꢐꢞ  
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M
M
M
;ꢞ  
8
ꢐꢁꢑꢐ  
ꢐꢁꢛꢐ  
ꢜꢔꢊꢃꢉꢝ  
ꢀꢁ 1ꢃꢆꢈꢀꢈ,ꢃ $ꢉꢋꢈꢃꢆ!ꢅ&ꢈ%ꢅꢉ#$ꢍꢅꢈꢄꢉꢘꢈ,ꢉꢍꢘ0ꢈ8$#ꢈꢄ$ #ꢈ8ꢅꢈꢋꢇꢊꢉ#ꢅ!ꢈ-ꢃ#ꢌꢃꢆꢈ#ꢌꢅꢈꢌꢉ#ꢊꢌꢅ!ꢈꢉꢍꢅꢉꢁ  
ꢑꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆ ꢈꢂꢈꢉꢆ!ꢈ"ꢀꢈ!ꢇꢈꢆꢇ#ꢈꢃꢆꢊꢋ$!ꢅꢈꢄꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢁꢈꢏꢇꢋ!ꢈ%ꢋꢉ ꢌꢈꢇꢍꢈꢎꢍꢇ#ꢍ$ ꢃꢇꢆ ꢈ ꢌꢉꢋꢋꢈꢆꢇ#ꢈꢅ&ꢊꢅꢅ!ꢈꢐꢁꢀ(ꢈꢄꢄꢈꢎꢅꢍꢈ ꢃ!ꢅꢁ  
ꢛꢁ ꢂꢃꢄꢅꢆ ꢃꢇꢆꢃꢆꢓꢈꢉꢆ!ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢃꢆꢓꢈꢎꢅꢍꢈꢔꢕꢏ"ꢈ'ꢀꢖꢁ(ꢏꢁ  
)ꢕ*+ )ꢉ ꢃꢊꢈꢂꢃꢄꢅꢆ ꢃꢇꢆꢁꢈꢗꢌꢅꢇꢍꢅ#ꢃꢊꢉꢋꢋꢘꢈꢅ&ꢉꢊ#ꢈ,ꢉꢋ$ꢅꢈ ꢌꢇ-ꢆꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ ꢁ  
ꢚ".+ ꢚꢅ%ꢅꢍꢅꢆꢊꢅꢈꢂꢃꢄꢅꢆ ꢃꢇꢆ0ꢈ$ $ꢉꢋꢋꢘꢈ-ꢃ#ꢌꢇ$#ꢈ#ꢇꢋꢅꢍꢉꢆꢊꢅ0ꢈ%ꢇꢍꢈꢃꢆ%ꢇꢍꢄꢉ#ꢃꢇꢆꢈꢎ$ꢍꢎꢇ ꢅ ꢈꢇꢆꢋꢘꢁ  
ꢏꢃꢊꢍꢇꢊꢌꢃꢎ ꢊꢌꢆꢇꢋꢇꢓꢘ ꢂꢍꢉ-ꢃꢆꢓ *ꢐꢖꢜꢐ;ꢒ)  
© 2009 Microchip Technology Inc.  
DS22140A-page 25  
MCP6L01/1R/1U/2/4  
NOTES:  
DS22140A-page 26  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
APPENDIX A: REVISION HISTORY  
Revision A (March 2009)  
• Original Release of this Document.  
© 2009 Microchip Technology Inc.  
DS22140A-page 29  
MCP6L01/1R/1U/2/4  
NOTES:  
DS22140A-page 30  
© 2009 Microchip Technology Inc.  
MCP6L01/1R/1U/2/4  
PRODUCT IDENTIFICATION SYSTEM  
To order or obtain information, e.g., on pricing or delivery, refer to the factory or the listed sales office.  
Examples:  
PART NO.  
Device  
X
/XX  
a) MCP6L01T-E/LT: Tape and Reel,  
Extended Temperature,  
5LD SC-70 package  
b) MCP6L01T-E/OT: Tape and Reel,  
Temperature  
Range  
Package  
Extended Temperature,  
5LD SOT-23 package  
Device:  
MCP6L01T:  
MCP6L01RT:  
Single Op Amp (Tape and Reel)  
(SC-70, SOT-23)  
Single Op Amp (Tape and Reel) (SOT-23)  
a) MCP6L01RT-E/OT: Tape and Reel,  
Extended Temperature,  
5LD SOT-23 package.  
MCP6L01UT: Single Op Amp (Tape and Reel) (SOT-23)  
MCP6L02T:  
MCP6L04T:  
Dual Op Amp (Tape and Reel)  
(SOIC, MSOP)  
Quad Op Amp (Tape and Reel)  
(SOIC, TSSOP)  
a) MCP6L01UT-E/OT: Tape and Reel,  
Extended Temperature,  
5LD SOT-23 package.  
a) MCP6L02T-E/MS: Tape and Reel,  
Extended Temperature,  
8LD MSOP package.  
b) MCP6L02T-E/SN: Tape and Reel,  
Temperature Range:  
Package:  
E
=
-40°C to +125°C  
Extended Temperature,  
8LD SOIC package.  
LT  
=
=
=
=
=
=
Plastic Package (SC-70), 5-lead (MCP6L01 only)  
Plastic Small Outline Transistor (SOT-23), 5-lead  
Plastic MSOP, 8-lead  
Plastic SOIC, (3.99 mm body), 8-lead  
Plastic SOIC (3.99 mm body), 14-lead  
Plastic TSSOP (4.4mm body), 14-lead  
OT  
MS  
SN  
SL  
ST  
a) MCP6L04T-E/SL: Tape and Reel,  
Extended Temperature,  
14LD SOIC package.  
b) MCP6L04T-E/ST: Tape and Reel,  
Extended Temperature,  
14LD TSSOP package.  
© 2008 Microchip Technology Inc.  
DS22140A-page 31  
MCP6L01/1R/1U/2/4  
NOTES:  
DS22140A-page 32  
© 2008 Microchip Technology Inc.  
Note the following details of the code protection feature on Microchip devices:  
Microchip products meet the specification contained in their particular Microchip Data Sheet.  
Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the  
intended manner and under normal conditions.  
There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to our  
knowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data  
Sheets. Most likely, the person doing so is engaged in theft of intellectual property.  
Microchip is willing to work with the customer who is concerned about the integrity of their code.  
Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not  
mean that we are guaranteeing the product as “unbreakable.”  
Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of our  
products. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts  
allow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.  
Information contained in this publication regarding device  
applications and the like is provided only for your convenience  
and may be superseded by updates. It is your responsibility to  
ensure that your application meets with your specifications.  
MICROCHIP MAKES NO REPRESENTATIONS OR  
WARRANTIES OF ANY KIND WHETHER EXPRESS OR  
IMPLIED, WRITTEN OR ORAL, STATUTORY OR  
OTHERWISE, RELATED TO THE INFORMATION,  
INCLUDING BUT NOT LIMITED TO ITS CONDITION,  
QUALITY, PERFORMANCE, MERCHANTABILITY OR  
FITNESS FOR PURPOSE. Microchip disclaims all liability  
arising from this information and its use. Use of Microchip  
devices in life support and/or safety applications is entirely at  
the buyer’s risk, and the buyer agrees to defend, indemnify and  
hold harmless Microchip from any and all damages, claims,  
suits, or expenses resulting from such use. No licenses are  
conveyed, implicitly or otherwise, under any Microchip  
intellectual property rights.  
Trademarks  
The Microchip name and logo, the Microchip logo, Accuron,  
dsPIC, KEELOQ, KEELOQ logo, MPLAB, PIC, PICmicro,  
PICSTART, rfPIC, SmartShunt and UNI/O are registered  
trademarks of Microchip Technology Incorporated in the  
U.S.A. and other countries.  
FilterLab, Linear Active Thermistor, MXDEV, MXLAB,  
SEEVAL, SmartSensor and The Embedded Control Solutions  
Company are registered trademarks of Microchip Technology  
Incorporated in the U.S.A.  
Analog-for-the-Digital Age, Application Maestro, CodeGuard,  
dsPICDEM, dsPICDEM.net, dsPICworks, dsSPEAK, ECAN,  
ECONOMONITOR, FanSense, In-Circuit Serial  
Programming, ICSP, ICEPIC, Mindi, MiWi, MPASM, MPLAB  
Certified logo, MPLIB, MPLINK, mTouch, nanoWatt XLP,  
PICkit, PICDEM, PICDEM.net, PICtail, PIC32 logo, PowerCal,  
PowerInfo, PowerMate, PowerTool, REAL ICE, rfLAB, Select  
Mode, Total Endurance, TSHARC, WiperLock and ZENA are  
trademarks of Microchip Technology Incorporated in the  
U.S.A. and other countries.  
SQTP is a service mark of Microchip Technology Incorporated  
in the U.S.A.  
All other trademarks mentioned herein are property of their  
respective companies.  
© 2009, Microchip Technology Incorporated, Printed in the  
U.S.A., All Rights Reserved.  
Printed on recycled paper.  
Microchip received ISO/TS-16949:2002 certification for its worldwide  
headquarters, design and wafer fabrication facilities in Chandler and  
Tempe, Arizona; Gresham, Oregon and design centers in California  
and India. The Company’s quality system processes and procedures  
are for its PIC® MCUs and dsPIC® DSCs, KEELOQ® code hopping  
devices, Serial EEPROMs, microperipherals, nonvolatile memory and  
analog products. In addition, Microchip’s quality system for the design  
and manufacture of development systems is ISO 9001:2000 certified.  
© 2009 Microchip Technology Inc.  
DS22140A-page 33  
Worldwide Sales and Service  
AMERICAS  
ASIA/PACIFIC  
ASIA/PACIFIC  
EUROPE  
Corporate Office  
Asia Pacific Office  
Suites 3707-14, 37th Floor  
Tower 6, The Gateway  
Harbour City, Kowloon  
Hong Kong  
Tel: 852-2401-1200  
Fax: 852-2401-3431  
India - Bangalore  
Tel: 91-80-3090-4444  
Fax: 91-80-3090-4080  
Austria - Wels  
Tel: 43-7242-2244-39  
Fax: 43-7242-2244-393  
2355 West Chandler Blvd.  
Chandler, AZ 85224-6199  
Tel: 480-792-7200  
Fax: 480-792-7277  
Technical Support:  
http://support.microchip.com  
Web Address:  
www.microchip.com  
Denmark - Copenhagen  
Tel: 45-4450-2828  
Fax: 45-4485-2829  
India - New Delhi  
Tel: 91-11-4160-8631  
Fax: 91-11-4160-8632  
France - Paris  
Tel: 33-1-69-53-63-20  
Fax: 33-1-69-30-90-79  
India - Pune  
Tel: 91-20-2566-1512  
Fax: 91-20-2566-1513  
Australia - Sydney  
Tel: 61-2-9868-6733  
Fax: 61-2-9868-6755  
Atlanta  
Duluth, GA  
Tel: 678-957-9614  
Fax: 678-957-1455  
Germany - Munich  
Tel: 49-89-627-144-0  
Fax: 49-89-627-144-44  
Japan - Yokohama  
Tel: 81-45-471- 6166  
Fax: 81-45-471-6122  
China - Beijing  
Tel: 86-10-8528-2100  
Fax: 86-10-8528-2104  
Italy - Milan  
Tel: 39-0331-742611  
Fax: 39-0331-466781  
Korea - Daegu  
Tel: 82-53-744-4301  
Fax: 82-53-744-4302  
Boston  
China - Chengdu  
Tel: 86-28-8665-5511  
Fax: 86-28-8665-7889  
Westborough, MA  
Tel: 774-760-0087  
Fax: 774-760-0088  
Netherlands - Drunen  
Tel: 31-416-690399  
Fax: 31-416-690340  
Korea - Seoul  
China - Hong Kong SAR  
Tel: 852-2401-1200  
Fax: 852-2401-3431  
Tel: 82-2-554-7200  
Fax: 82-2-558-5932 or  
82-2-558-5934  
Chicago  
Itasca, IL  
Tel: 630-285-0071  
Fax: 630-285-0075  
Spain - Madrid  
Tel: 34-91-708-08-90  
Fax: 34-91-708-08-91  
China - Nanjing  
Tel: 86-25-8473-2460  
Fax: 86-25-8473-2470  
Malaysia - Kuala Lumpur  
Tel: 60-3-6201-9857  
Fax: 60-3-6201-9859  
Cleveland  
UK - Wokingham  
Tel: 44-118-921-5869  
Fax: 44-118-921-5820  
Independence, OH  
Tel: 216-447-0464  
Fax: 216-447-0643  
China - Qingdao  
Tel: 86-532-8502-7355  
Fax: 86-532-8502-7205  
Malaysia - Penang  
Tel: 60-4-227-8870  
Fax: 60-4-227-4068  
Dallas  
Addison, TX  
Tel: 972-818-7423  
Fax: 972-818-2924  
China - Shanghai  
Tel: 86-21-5407-5533  
Fax: 86-21-5407-5066  
Philippines - Manila  
Tel: 63-2-634-9065  
Fax: 63-2-634-9069  
Detroit  
China - Shenyang  
Tel: 86-24-2334-2829  
Fax: 86-24-2334-2393  
Singapore  
Tel: 65-6334-8870  
Fax: 65-6334-8850  
Farmington Hills, MI  
Tel: 248-538-2250  
Fax: 248-538-2260  
China - Shenzhen  
Tel: 86-755-8203-2660  
Fax: 86-755-8203-1760  
Taiwan - Hsin Chu  
Tel: 886-3-572-9526  
Fax: 886-3-572-6459  
Kokomo  
Kokomo, IN  
Tel: 765-864-8360  
Fax: 765-864-8387  
China - Wuhan  
Tel: 86-27-5980-5300  
Fax: 86-27-5980-5118  
Taiwan - Kaohsiung  
Tel: 886-7-536-4818  
Fax: 886-7-536-4803  
Los Angeles  
Mission Viejo, CA  
Tel: 949-462-9523  
Fax: 949-462-9608  
China - Xiamen  
Tel: 86-592-2388138  
Fax: 86-592-2388130  
Taiwan - Taipei  
Tel: 886-2-2500-6610  
Fax: 886-2-2508-0102  
Santa Clara  
China - Xian  
Tel: 86-29-8833-7252  
Fax: 86-29-8833-7256  
Thailand - Bangkok  
Tel: 66-2-694-1351  
Fax: 66-2-694-1350  
Santa Clara, CA  
Tel: 408-961-6444  
Fax: 408-961-6445  
China - Zhuhai  
Tel: 86-756-3210040  
Fax: 86-756-3210049  
Toronto  
Mississauga, Ontario,  
Canada  
Tel: 905-673-0699  
Fax: 905-673-6509  
02/04/09  
DS22140A-page 34  
© 2009 Microchip Technology Inc.  
配单直通车
MCP6L02T-E/MS产品参数
型号:MCP6L02T-E/MS
是否无铅: 不含铅
是否Rohs认证: 符合
生命周期:Active
IHS 制造商:MICROCHIP TECHNOLOGY INC
零件包装代码:MSOP
包装说明:PLASTIC, MSOP-8
针数:8
Reach Compliance Code:compliant
ECCN代码:EAR99
HTS代码:8542.39.00.01
Factory Lead Time:3 weeks 2 days
风险等级:1.67
Samacsys Confidence:4
Samacsys Status:Released
Samacsys PartID:459167
Samacsys Pin Count:8
Samacsys Part Category:Integrated Circuit
Samacsys Package Category:Small Outline Packages
Samacsys Footprint Name:8 Lead MS MSOP
Samacsys Released Date:2017-07-04 09:01:15
Is Samacsys:N
放大器类型:OPERATIONAL AMPLIFIER
架构:VOLTAGE-FEEDBACK
标称共模抑制比:78 dB
频率补偿:YES
最大输入失调电压:5000 µV
JESD-30 代码:S-PDSO-G8
JESD-609代码:e3
长度:3 mm
低-偏置:YES
低-失调:NO
微功率:YES
湿度敏感等级:1
功能数量:2
端子数量:8
最高工作温度:125 °C
最低工作温度:-40 °C
封装主体材料:PLASTIC/EPOXY
封装代码:TSSOP
封装等效代码:TSSOP8,.19
封装形状:SQUARE
封装形式:SMALL OUTLINE, THIN PROFILE, SHRINK PITCH
包装方法:TAPE AND REEL
峰值回流温度(摄氏度):260
电源:5 V
认证状态:Not Qualified
座面最大高度:1.1 mm
标称压摆率:0.6 V/us
子类别:Operational Amplifier
最大压摆率:0.34 mA
供电电压上限:7 V
标称供电电压 (Vsup):5 V
表面贴装:YES
技术:CMOS
温度等级:AUTOMOTIVE
端子面层:Matte Tin (Sn) - annealed
端子形式:GULL WING
端子节距:0.65 mm
端子位置:DUAL
处于峰值回流温度下的最长时间:40
标称均一增益带宽:1000 kHz
宽度:3 mm
Base Number Matches:1
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