NCS5652MUTWG Datasheet NCS5652MUTWG, NCV5652MUTWG | P4-P6

NCS5652, NCV5652

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4

Table 5. ELECTRICAL CHARACTERISTICS: V

CC

= VC1 = VC2 = 5 V

Boldface limits apply over the specified temperature range, T

A

= –40°C to +125°C.

At T

A

= +25°C, R

L

= 1 kW connected to midsupply, V

OUT

= midsupply, unless otherwise noted.

Parameter

Symbol Conditions Min Typ Max Unit

INPUT CHARACTERISTICS

Offset Voltage

V

OS

1 15 mV

Offset Voltage Drift

dV/dT

2

mV/°C

Input Bias Current I

IB

550 1000 nA

Input Offset Current I

OS

10 100 nA

Input Common Mode Range (Note 6) V

CM

0 3.8 V

Common Mode Rejection Ratio CMRR 90 100 dB

OUTPUT CHARACTERISTICS (OUT1, OUT2)

Output Voltage High (Note 7)

V

OH

V

id

= 1 V, I

O

= +250 mA 4.0 4.15 V

Output Voltage Low V

OL

V

id

= −1 V, I

O

= −250 mA 200

350

mV

DYNAMIC PERFORMANCE

Open Loop Voltage Gain

A

VOL

90 105 dB

Gain Bandwidth Product GBWP

R

L

= 47 W, C

L

= 100 nF

350 kHz

Gain Margin A

M

R

L

= 47 W, C

L

= 100 nF

6 dB

Phase Margin

y

M

R

L

= 47 W, C

L

= 100 nF

45 °

Slew Rate SR 1.5

V/ms

POWER SUPPLY

Power Supply Rejection Ratio

PSRR V

CC

= VC1 = VC2 = 3.3 V to 13.2 V 65 75 dB

Quiescent Current (Operating) I

CC

No R

L

, C

L

= 100 nF 3 4 mA

Quiescent Current (Output) I

C1,

I

C2

(Per op amp) No R

L

, C

L

= 100 nF 4 6 mA

THERMAL CHARACTERISTICS

Thermal Shutdown (Note 8)

T

SHUTDOWN

160

°C

LOGIC CHARACTERISTICS (DISABLE/Tflag)

Output Voltage Low (Note 6)

V

OL

I

OL

= 1 mA 0.7 V

Input Voltage High (Note 9) V

IH

1.5 V

Input Voltage Low (Note 10) V

IL

1.1 V

Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product

performance may not be indicated by the Electrical Characteristics if operated under different conditions.

6. V

CM

is a function of V

CC

(V

CC

– 1.2 V).

7. V

OH

is a function of V

CC

(V

CC

− 0.8 V).

8. Guaranteed by design/characterization.

9. DISABLE

/Tflag pin with a pull−up resistor for sourcing.

10.DISABLE

/Tflag pin with an open collector/drain for sinking.

NCS5652, NCV5652

www.onsemi.com

5

TYPICAL CHARACTERISTICS

3.4

3.2

3

2.8

2.6

2.4

2.2

2

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

31716151413456 78 1211109

Figure 2. I

CC

Quiescent Current vs. Supply

Voltage over Temperature

−40°C

25°C

125°C

V

CC

= VC1 = VC2

V

OUT

= V

CC

/2

12

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

31716151413456 78 1211109

Figure 3. Ic Quiescent Current vs. Supply

Voltage over Temperature (Ic1, Ic2 combined)

11

10

9

8

7

6

−40°C

25°C

125°C

V

CC

= VC1 = VC2

V

OUT

= V

CC

/2

30

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

31716151413456 78 1211109

Figure 4. Comparator Mode (Negative), I

CC

Quiescent Current vs Supply Voltage

25

20

15

10

5

0

V

CC

= VC1 = VC2

V

id

= −1 V

−40°C

25°C

125°C

1.000

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

31716151413456 78 1211109

Figure 5. Comparator Mode (Negative), Ic

Quiescent Current vs Supply Voltage (Ic1,Ic2

Combined)

0.100

0.010

0.001

0.0001

V

CC

= VC1 = VC2

V

id

= −1 V

−40°C

25°C

125°C

3.0

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

31716151413456 78 1211109

Figure 6. Comparator Mode (Positive), I

CC

Quiescent Current vs Supply Voltage

V

CC

= VC1 = VC2

V

id

= +1 V

2.8

2.6

2.4

2.2

2.0

−40°C

25°C

125°C

12

SUPPLY VOLTAGE (V)

SUPPLY CURRENT (mA)

31716151413456 78 1211109

Figure 7. Comparator Mode (Positive), Ic

Quiescent Current vs Supply Voltage (Ic1,Ic2

Combined)

10

8

6

4

2

0

−40°C

25°C

125°C

V

CC

= VC1 = VC2

V

id

= +1 V

NCS5652, NCV5652

www.onsemi.com

6

TYPICAL CHARACTERISTICS

Figure 8. Low Level Output Voltage vs. Output

Current Over Temperature

Figure 9. High Level Output Voltage vs. Output

Current Over Temperature

OUTPUT CURRENT (mA) OUTPUT CURRENT (mA)

7006005004003002001000

0.001

0.01

0.1

1

10

600500400 7003002001000

1.2

1.0

0.8

0.6

0.4

0.2

0

Figure 10. Open Loop Gain/Phase

(No R

L

, C

L

= 0)

Figure 11. Open Loop Gain/Phase

(No R

L

, C

L

= Varied)

FREQUENCY (Hz) FREQUENCY (Hz)

−40

−20

0

20

40

80

100

120

100K10K1K10010

−200

−100

−50

0

50

150

250

Figure 12. Open Loop Gain/Phase

(R

L

= 47 W, C

L

= Varied)

Figure 13. Open Loop Gain/Phase

(R

L

= 150 W, C

L

= Varied)

VOLTAGE FROM NEG RAIL (V)

OUTPUT VOLTAGE FROM POS RAIL (V)

PHASE (Deg)

−40°C

0°C

+25°C

+125°C

V

CC

= 3.3 to 13.2 V

V

CC

= VC1 = VC2

Vid = −1 V

V

CC

= 3.3 to 13.2 V

V

CC

= VC1 = VC2

Vid = +1 V

−40°C

0°C

+25°C

+125°C

10 1K 1M

60

V

CC

= VC1 = VC2 = 5 V

V

OUT

= V

CC

/2

No R

L

, C

L

= 0

T

A

= 25°C

−200

−150

−100

−50

0

100

150

200

50

Phase

Gain

200

100 10K 100K

GAIN (dB)

−250

Phase − C

L

= 50 nF

Phase − C

L

= 100 nF

Phase − C

L

= 200 nF

Phase − C

L

= 300 nF

Gain − C

L

= 50 nF

Gain − C

L

= 100 nF

Gain − C

L

= 200 nF

Gain − C

L

= 300 nF

100

−150

FREQUENCY (Hz) FREQUENCY (Hz)

−40

−20

0

20

40

80

100

120

100K10K1K10010

−200

−100

−50

0

50

150

250

PHASE (Deg)

10 1K

60

−250

−150

−100

−50

0

100

150

250

50

200

100 10K 100K

GAIN (dB)

−250

100

−150

Phase − C

L

= 50 nF

Phase − C

L

= 100 nF

Phase − C

L

= 200 nF

Phase − C

L

= 300 nF

Gain − C

L

= 50 nF

Gain − C

L

= 100 nF

Gain − C

L

= 200 nF

Gain − C

L

= 300 nF

200

−200

Phase − C

L

= 50 nF

Phase − C

L

= 100 nF

Phase − C

L

= 200 nF

Phase − C

L

= 300 nF

Gain − C

L

= 50 nF

Gain − C

L

= 100 nF

Gain − C

L

= 200 nF

Gain − C

L

= 300 nF

T

A

= 25°C

V

OUT

= V

CC

/2

V

CC

= VC1 = VC2 = 5 V

No R

L

T

A

= 25°C

V

OUT

= V

CC

/2

V

CC

= VC1 = VC2 = 5 V

R

L

= 47 W

T

A

= 25°C

V

OUT

= V

CC

/2

V

CC

= VC1 = VC2 = 5 V

R

L

= 150 W

10M 1M

1M1M

NCS5652MUTWG

NCS5652MUTWG

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