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您現(xiàn)在的位置：買賣IC網(wǎng) > PDF目錄383594 > MCP6275 (Microchip Technology Inc.) 170 UA, 2 MHz Rail-to-Rail Op Amp PDF資料下載

參數(shù)資料

型號(hào)：	MCP6275
廠商：	Microchip Technology Inc.
英文描述：	170 UA, 2 MHz Rail-to-Rail Op Amp
中文描述：	170聯(lián)合航空表示，2 MHz的軌到軌運(yùn)算放大器
文件頁數(shù)：	11/34頁
文件大小：	596K
代理商：	MCP6275

2004 Microchip Technology Inc.

DS21810D-page 11

MCP6271/2/3/4/5

4.0

APPLICATION INFORMATION

The MCP6271/2/3/4/5 family of op amps is manufac-

tured using Microchip’s state-of-the-art CMOS process,

specifically designed for low-cost, low-power and

general purpose applications. The low supply voltage,

low quiescent current and wide bandwidth makes the

MCP6271/2/3/4/5

ideal

applications.

for

battery-powered

4.1

Rail-to-Rail Inputs

The MCP6271/2/3/4/5 op amps are designed to

prevent phase reversal when the input pins exceed the

supply voltages. Figure 4-1 shows the input voltage

exceeding the supply voltage without any phase

reversal.

FIGURE 4-1:

No Phase Reversal.

The

MCP6271/2/3/4/5

Show

The input stage of the MCP6271/2/3/4/5 op amps use

two differential CMOS input stages in parallel. One

operates at low common mode input voltage (V

CM

) and

the other at high V

CM

. With this topology, the device

operates with V

CM

up to 0.3V above V

DD

and 0.3V

below V

SS

. The Input Offset Voltage (V

OS

) is measured

at V

CM

= V

SS

– 0.3V and V

DD

+ 0.3V to ensure proper

operation.

Input voltages that exceed the absolute maximum volt-

age (V

SS

– 0.3V to V

DD

+ 0.3V) can cause excessive

current to flow into or out of the input pins. Current

beyond ±2 mA can cause reliability problems.

Applications that exceed this rating must be externally

limited with a resistor, as shown in Figure 4-2.

FIGURE 4-2:

Resistor (R

IN

).

Input Current Limiting

4.2

Rail-to-Rail Output

The output voltage range of the MCP6271/2/3/4/5 op

amps is V

DD

– 15 mV (min.) and V

SS

+ 15 mV (max.)

when R

L

= 10 k

is connected to V

DD

/2 and

V

DD

= 5.5V. Refer to Figure 2-16 for more information.

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. A unity-gain buffer (G = +1) is the most

sensitive to capacitive loads, though all gains show the

same general behavior.

When driving large capacitive loads with these op

amps (e.g., > 100 pF when G = +1), a small series

resistor at the output (R

ISO

in Figure 4-3) improves the

feedback loop’s phase margin (stability) by making the

output load resistive at higher frequencies. The

bandwidth will be generally lower than the bandwidth

with no capacitive load.

FIGURE 4-3:

stabilizes large capacitive loads.

Output Resistor, R

ISO

Figure 4-4 gives recommended R

ISO

values for differ-

ent capacitive loads and gains. The x-axis is the

normalized load capacitance (C

L

/G

N

), where G

N

is the

circuit's noise gain. For non-inverting gains, G

N

and the

Signal Gain are equal. For inverting gains, G

N

is

1+|Signal Gain| (e.g., -1 V/V gives G

N

= +2 V/V).

-1

0

1

2

3

4

5

6

-15

-14

-13

-12

-11

-10

-9

-8

-7

-6

-5

Time (1 ms/div)

I

V

DD

= 5.0V

G = +2 V/V

V

IN

V

OUT

RIN

VSS

Minimum expected

VIN

2

mA

(

)

–

≥

RIN

Maximum expected

-------------------------------------------------------VIN

(

)

VDD

–

2

mA

≥

V

IN

R

IN

V

OUT

–

+

MCP627X

V

IN

R

ISO

V

OUT

C

L

–

MCP627X

+

相關(guān)PDF資料	PDF描述
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MCP6293T	1.0 mA, 10 MHz Rail-to-Rail Op Amp
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