XC61AC0902PL [ETC]

Analog IC ; 模拟IC\n


型号：	XC61AC0902PL
厂家：	ETC
描述：	Analog IC 模拟IC\n 模拟IC
文件：	总9页 (文件大小：64K)
中文：	中文翻译
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Low Voltage Detectors (0.8V~2.0V)

XC61A Series

HP010199

■ Applications

◆ CMOS

● Microprocessor reset circuits

● Memory battery back-up circuits

● Power-on reset circuits

● Power failure detection

◆ Mini Mold Package

◆ Highly Accurate ±2% (±1%)

◆ Low Power Consumption 1.0µA Typ.

(V^IN=2V )

● System battery life and charge voltage monitors

■ General Description

The XC61A is a highly precise detector series manufactured using CMOS

and laser trimming technologies.

■ Features

Highly accurate: Detect voltage ±2% (±1% for semi-custom products)

Low power consumption: Typ.1.0µA (V^IN=2V)

The series is very accurate and offers standard voltage sourced low power

consumption.The series consists of hysteresis, output driver, and linear

characterised delay circuits, together with a comparator. Detect voltage is

extremely accurate with minimal temperature drift. Both CMOS and N-

channel open drain output configurations are available.

Integrating the above functions in a single, mini-molded package, the

XC61A series offers significant space saving and high-density mounting,

suitable for use with portable products.

Selectable detect voltage: 0.8V ~ 2.0V in 0.1V increments.

Operating voltage: From 0.7V ~ 6.0V.

Temperature Characteristics: Typ.±100ppm/

Output configuration: N-channel open drain or CMOS

Ultra small package: SOT-23 (150mW) mini-mold and SOT-89 (500mW)

mini-power mold

■ Pin Configuration

■ Pin Assignment

PIN NUMBER

PIN NAME

FUNCTION

VIN

SOT-23

SOT-89

OUT

Supply voltage input

Ground

OUT

VSS

Output

VSS

SOT-23

SOT-89

(TOP VIEW)

■ Block Diagram

■ Absolute Maximum Ratings

Ta=25:

(1) CMOS output

PARAMETER

Input Voltage

Output Voltage

Output Current

SYMBOL

RATINGS

UNITS

VIN

VOUT

SS-0.3

VIN+0.3

Vref

OUT

(2) N-channel open drain output

SOT-23

SOT-89

150

Continuous Total

Power Dissipation

500

VOUT

–

Operating Ambient Temperature

Storage Temperature

Topr

Tstg

Vref

–

125

q-1

■ Electrical Characteristics

Ta=25

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

Detect Voltage

DF✕0.98

DF✕1.02

Hysteresis Range

Supply Current

HYS

✕0.02

DF✕0.05

0.08

IN=1.5V

0.9

1.0

1.3

1.6

2.0

2.6

3.0

3.4

3.8

4.2

2.0V

3.0V

4.0V

5.0V

µA

Operating Voltage

Output Current

DF=0.8~2.0V

0.7

6.0

h VDS=0.5V

IN=0.7V

0.35

2.2

IN=1.0V

OUT

h VDS=3.9V

IN=6.0V

CMOS Output

–

7.5

(

)

(

)

100

ppm/:

Temperature Characteristics

Delay Time(Release Voltage

∆

Topr VDF

–30:≤Topr 80:

≤

t^DLY

0.2

➔Output Inversion)

(VDR

➔VOUT Inversion)

1. The products that have 1% Detect Voltage (VDF) accuracy are semi-custom products.

Note:

2. An additional resistor connected between the VIN pin and the supply voltage may cause alterations in the characteristics due to the increasing values

of VDR

■ Notes on Use

■ Functional Description

Where a resistor (RIN) is connected between VIN and the power

supply, use the N-ch open drain configuration.

In order to prevent oscillation please ensure that RIN = 1kΩ or less

and that C = 0.1µF or more.

The following designators

q-y refer to the timing diagram below:

When the Input Voltage (VIN) is higher than the Detect Voltage (VDF

)

level, output at the V^OUTpin is equal to VIN. (High impedance exists

with the N-channel open drain output configuration).

When the Input Voltage (VIN) falls below the Detect Voltage (VDF

)

level, the Output Voltage (V^OUT) is equal to the Ground Voltage (VSS

level.

)

XC61AN Series

When the Input Voltage (VIN) falls below the Minimum Operating

RIN

Voltage (V^MIN) level, output becomes unstable. In this condition, if

there is an output pull-up, V^INwill be the output.

VIN

VOUT

When the Input Voltage (VIN) rises above the ground voltage (Vss)

level, output becomes unstable between the Ground Voltage (V^SS

level and the Minimum Operating Voltage (V^MIN) level. Between the

MIN and VDR levels the Ground Voltage (Vss) level is maintained.

When the Input Voltage (VIN) rises above the Detect Release Voltage

)

(V^DR) level, output at the VOUT pin is equal to VIN. (High impedance

exists with the N-channel open drain output configuration).

Diagram : Circuit with input resistor connected.

The difference between VDR and VDF represents the hysteresis

range.

■ Timing Diagram

(

)

INPUT VOLTAGE VIN

(

)

DETECT RELEASE VOLTAGE V^DR

(

)

DETECT VOLTAGE V^DF

(

)

MINIMUM OPERATING VOLTAGE V^MIN

(

)

GROUND VOLTAGE V^SS

(

)

OUTPUT VOLTAGE V^OUT

(

)

GROUND VOLTAGE V^SS

q-2

Low Voltage Detectors (0.8V~2.0V)

XC61A Series

■ Ordering Information

XC61Axxxxxxx

b c d e f

DESIGNATOR

DESCRIPTION

Output Configuration

DESIGNATOR

DESCRIPTION

Detect Accuracy

(

)

C=CMOS Output

N=N-Channel Open Drain

1% Semi -custom products

Package Type

Detect Voltage

M=SOT-23

P=SOT-89

T=TO-92

e.g.08

0.8V

1.1V

Device Orientation

R=Embossed Tape

Output Delay

Standard products have no delay.

(

)

Orientation of Device:Right

L=Embossed Tape

(

)

0=No Delay Standard product

Custom products which have

customer specified delay time

are available.

(

)

Orientation of Device:Left

(

)

H=Paper Tape TO-92

B=Bag TO-92

(

)

■ Marking

qConfiguration and Integral Number of Detect Voltage

( )

DESIGNATOR CONFIGURATION VOLTAGE V DESIGNATOR CONFIGURATION VOLTAGE V

CMOS

N-channel

CMOS

N-channel

SOT-23

(TOP VIEW)

SOT-89

(TOP VIEW)

wDecimal Point of Detect Voltage

eOutput Delay Time

(

)

DESIGNATOR

DELAY TIME ^ms

DESIGNATOR VOLTAGE(V) DESIGNATOR VOLTAGE(V)

No Delay

Note: Symbol '0' is for standard spec.

rAssembly Lot Number

Based on internal standards

q-3

General Voltage Detectors (2.1V~6.0V)

XC61A Series

HP010199

■ Applications

◆ CMOS

● Microprocessor reset circuits

● Memory battery back-up circuits

● Power-on reset circuits

● Power failure detection

◆ Mini Mold Package

◆ Highly Accurate: ±2% (±1%)

◆ Low Power Consumption 1.0µA Typ.

(V^IN=2V )

● System battery life and charge voltage monitors

■ General Description

The XC61A is a highly precise detector series manufactured using CMOS

and laser trimming technologies.

■ Features

Highly accurate: Detect voltage ±2% (±1% for semi-custom products)

Low power consumption: Typ.1.0µA (V^IN=2V)

The series is very accurate and offers standard voltage sourced low power

consumption.The series consists of hysteresis, output driver, and linear

characterised delay circuits, together with a comparator. Detect voltage is

extremely accurate with minimal temperature drift. Both CMOS and N-

channel open drain output configurations are available.

Integrating the above functions in a single, mini-molded package, the

XC61A series offers significant space saving and high-density mounting,

suitable for use with portable products.

Selectable detect voltage: Range 2.1V ~ 6.0V in 0.1V increments.

Operating voltage: From 0.7V ~ 10.0V.

Temperature Characteristics: Typ.±100ppm/

Output configuration: N-channel open drain or CMOS

Ultra small package: SOT-23 (150mW) mini-mold SOT-89 (500mW)

mini-power mold

*TO-92 (300mW) packages also available. (order basis)

■ Pin Assignment

■ Pin Configuration

PIN NUMBER

PIN NAME

FUNCTION

SOT-23

SOT-89

V^IN

VSS

Supply voltage input

Ground

VOUT

Output

OUT

VSS

OUT

VSS

SOT-23

SOT-89

(TOP VIEW)

■ Absolute Maximum Ratings

Ta=25

UNITS

■ Block Diagram

(1) CMOS output

PARAMETER

Input Voltage

Output Voltage

Output Current

SYMBOL

RATINGS

VIN

OUT

VIN 0.3

VOUT

IOUT

V^SS–0.3

ref

VSS

(2) N-channel open drain output

SOT-23

SOT-89

150

500

Continuous Total

Power Dissipation

P^d

OUT

Operating Ambient Temperature

Storage Temperature

T^opr

–30

–40

ref

Tstg

125

VSS

q-4

General Voltage Detectors (2.1V ~ 6.0V)

XC61A Series

■ Electrical Characteristics

Ta=25

UNITS

PARAMETER

Detect Voltage

SYMBOL

CONDITIONS

MIN

TYP

MAX

DF✕0.98

DF✕1.02

Hysteresis Range

VHYS

✕0.02

✕0.05

✕0.08

IN=1.5V

0.9

1.0

1.3

1.6

2.0

2.6

3.0

3.4

3.8

4.2

2.0V

3.0V

4.0V

5.0V

Supply Current

µA

Operating Voltage

Output Current

DF=2.1

6.0V

0.7

10.0

NCh VDS=0.5V

2.2

7.7

10.1

11.5

13.0

IN=1.0V

2.0V

3.0V

4.0V

5.0V

OUT

N-Ch VDS=2.1V

IN=8.0V

–

10.0

(

)

CMOS Output

(

)

100

ppm/

Temperature Characteristics

Delay Time(Release Voltage

∆

VDF/

∆

Topr VDF

-30:≤Topr 80

≤

tDLY

➔VOUT Inversion)

0.2

➔Output Inversion)

(VDR

1. The products that have 1% Detect Voltage (VDF) accuracy are semi-custom products.

Note:

2. An additional resistor connected between the Vin pin and the supply voltage may cause alterations in the characteristics due to the increasing values

of VDR

■ Notes on Use

■ Functional Description

Where a resistor (RIN) is connected between VIN and the power

supply, use the N-ch open drain configuration.

In order to prevent oscillation please ensure that RIN = 1kΩ or less

and that C = 0.1µF or more.

The following designators

q-y refer to the timing diagram below:

When the Input Voltage (VIN) is higher than the Detect Voltage (VDF

)

level, output at the V^OUTpin is equal to VIN. (High impedance exists

with the N-channel open drain output configuration).

When the Input Voltage (VIN) falls below the Detect Voltage (VDF)

level, the Output Voltage (V^OUT) is equal to the Ground Voltage (VSS

)

level.

When the Input Voltage (VIN) falls below the Minimum Operating

XC61AN Series

Voltage (V^MIN) level, output becomes unstable. In this condition, if

there is an output pull-up, V^INwill be the output.

VOUT

When the Input Voltage (VIN) rises above the ground voltage (Vss)

level, output becomes unstable between the Ground Voltage (V^SS

level and the Minimum Operating Voltage (V^MIN) level. Between the

MIN and VDR levels the Ground Voltage (Vss) level is maintained.

When the Input Voltage (VIN) rises above the Detect Release Voltage

)

(V^DR) level, output at the VOUT pin is equal to VIN. (High impedance

exists with the N-channel open drain output configuration).

Diagram : Circuit with input resistor connected.

The difference between VDR and VDF represents the hysteresis range.

■ Timing Diagram

(

)

INPUT VOLTAGE V^IN

(

)

DETECT RELEASE VOLTAGE V^DR

(

)

DETECT VOLTAGE V^DF

(

)

MINIMUM OPERATING VOLTAGE V^MIN

(

)

GROUND VOLTAGE V^SS

(

)

OUTPUT VOLTAGE V^OUT

(

)

GROUND VOLTAGE V^SS

q-5

■ Ordering Information

XC61Axxxxxxx

b c d e f

DESIGNATOR

DESCRIPTION

Output Configuration

DESIGNATOR

DESCRIPTION

Detect Accuracy

(

)

C=CMOS Output

N=N-Channel Open Drain

1=±

1% Semi -custom products

Package Type

Detect Voltage

M=SOT-23

P=SOT-89

T=TO-92

e.g.25

2.5V

3.8V

Device Orientation

R=Embossed Tape

Output Delay

Standard products have no delay.

0=No Delay Standard product

Custom products which have

customer specified delay time

are available.

(

)

Orientation of Device:Right

L=Embossed Tape

(

)

(

)

Orientation of Device:Left

(

)

H=Paper Tape TO-92

(

)

B=Bag TO-92

■ Marking

qConfiguration and Integral Number of Detect Voltage

( )

DESIGNATOR CONFIGURATION VOLTAGE V DESIGNATOR CONFIGURATION VOLTAGE V

CMOS

N-channel

CMOS

N-channel

SOT-23

(TOP VIEW)

SOT-89

(TOP VIEW)

CMOS

N-channel

wDecimal Point of Detect Voltage

eOutput delay time

(

)

DESIGNATOR

DELAY TIME ^ms

DESIGNATOR VOLTAGE(V) DESIGNATOR VOLTAGE(V)

No Delay

Note: Symbol '0' is Standard spec.

rAssembly Lot Number

Based on internal standards.

q-6

General Voltage Detectors (2.1V~6.0V)

XC61A Series

■ XC61AC Characteristics

( )

1 SUPPLY CURRENT vs. INPUT VOLTAGE

XC61AC2702 (2.7V)

XC61AC3602 (3.6V)

XC61AC4502 (4.5V)

25:

Ta=80:

-30:

25:

-30:

INPUT VOLTAGE VIN (V)

INPUT VOLTAGE V^IN(V)

INPUT VOLTAGE VIN (V)

( )

2 DETECT & RELEASE VOLTAGE vs. TEMPERATURE

XC61AC2702 (2.7V)

XC61AC3602 (3.6V)

XC61AC4502 (4.5V)

3.0

2.9

2.8

2.7

2.6

2.5

3.9

3.8

3.7

3.6

3.5

3.4

4.9

4.8

4.7

4.6

4.5

4.4

VDR

VDR (V)

VDF(V)

VDR

VDF

-40

-20

-40

-20

-40

-20

AMBIENT TEMPERATURE: Ta (:)

( )

3 OUTPUT VOLTAGE vs. INPUT VOLTAGE

XC61AC2702 (2.7V)

XC61AC3602 (3.6V)

XC61AC4502 (4.5V)

Ta= 80:

25:

Ta= 80:

25:

Ta= 80:

25:

-30:

INPUT VOLTAGE: V^IN(V)

INPUT VOLTAGE: VIN (V)

q-7

■ XC61AC Characteristics

( )

4 N-CH DRIVER OUTPUT CURRENT vs. V^DS

XC61AC2702 (2.7V)

XC61AC3602 (3.6V)

XC61AC4502 (4.5V)

VIN=4.0V

VIN=3.0V

3.5V

VIN=2.5V

2.5V

3.0V

2.5V

2.0V

1.5V

2.0V

1.5V

0.0 0.5 1.0 1.5 2.0 2.5 3.0

0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5

VDS (V)

XC61AC2702 (2.7V)

XC61AC3602 (3.6V)

XC61AC4502 (4.5V)

1000

800

600

400

200

VIN=0.8V

800

600

400

200

800

600

400

200

VIN=0.8V

0.7V

0.0

0.2

0.4

0.6

0.8

1.0

0.0

0.2

0.4

0.6

0.8

1.0

0.0

0.2

0.4

0.6

0.8

1.0

VDS (V)

( )

5 N-CH DRIVER OUTPUT CURRENT vs. INPUT VOLTAGE

XC61AC2702 (2.7V)

XC61AC3602 (3.6V)

XC61AC4502 (4.5V)

VDS=0.5V

Ta=30:

25:

80:

0.0 0.5 1.0 1.5 2.0 2.5 3.0

INPUT VOLTAGE: VIN (V)

q-8

General Voltage Detectors (2.1V~6.0V)

XC61A Series

( )

6 P-CH DRIVER OUTPUT CURRENT ^VS. INPUT CURRENT

XC61AC2702 (2.7V)

XC61AC3602 (3.6V)

XC61AC4502 (4.5V)

VDS=2.1V

1.5V

1.0V

0.5V

1.0V

0.5V

1.0V

0.5V

9 10

INPUT VOLTAGE VIN (V)

q-9

XC61AC0902PL [ETC]

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