XC6108 Datasheet, PDF(6/18 Page) Torex Semiconductor – Voltage Detector with Separated Sense Pin and Delay Type Capacitor

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XC6108 Datasheet, PDF (6/18 Pages) Torex Semiconductor – Voltage Detector with Separated Sense Pin and Delay Type Capacitor

◁

XC6108 Series

â ELECTRICAL CHARACTERISTICS

âXC6108xxxA

Ta=25â

PARAMETER

SYMBOL

CONDITIONS

MIN. TYP. MAX. UNITS CIRCUITS

Operating Voltage

VIN

VDF(T) = 0.8 ~ 5.0V (*1)

1.0

-

6.0

V

-

Detect Voltage

VDF

VIN = 1.0 ~ 6.0V

E-1

V

1

Hysteresis Range1

VHYS1

VIN = 1.0 ~ 6.0V

E-2

V

1

Detect Voltage

Line Regulation

ÎVDF

ÎVINï½¥VDF

VIN = 1.0 ~ 6.0V

-

Â±0.1

-

%/V

1

Supply Current 1 (*2)

ISS1

VSEN =

VDF x 0.9

VIN = 1.0V

-

VIN = 6.0V

-

0.6

1.5

ÂµA

0.7

1.6

2

Supply Current 2

ISS2

(*2)

VSEN =

VIN = 1.0V

-

0.8

1.7

VDF x 1.1

VIN = 6.0V

-

ÂµA

0.9

1.8

2

Output Current

(*3)

VSEN =0V

VIN = 1.0V 0.08 0.20

-

mA

3

VDS = 0.5V (N-ch) VIN = 6.0V 1.20 2.00

-

IOUT

VSEN = 6.0V

VIN = 1.0V

-

-0.30 -0.08

mA

4

VDS = 0.5V (P-ch) VIN = 6.0V

-

-2.00 -0.70

Temperature

Characteristics

ÎVDF

ÎTaï½¥VDF

-40 â â¦ Ta â¦ 85â

ppm/

-

Â±100

-

â

1

Sense Resistance

(*4)

RSEN

VSEN = 5.0V, VIN = 0V

E-4

Mâ¦

5

Delay Resistance

(*5)

Rdelay

VSEN = 6.0V, VIN = 5.0V,

1.6

2.0

2.4

Mâ¦

6

Cd = 0V

Delay pin

Sink Current

ICD

VDS = 0.5V, VIN = 1.0V

-

200

-

ÂµA

6

Delay Capacitance Pin

VSEN = 6.0V, VIN = 1.0V

0.4

0.5

0.6

Threshold Voltage

VTCD

VSEN = 6.0V, VIN = 6.0V

V

2.9

3.0

3.1

7

Unspecified Operating

Voltage (*6)

VUNS

VIN = VSEN = 0V ~ 0.7V

-

0.3

0.4

V

8

Detect Delay Time (*7)

TDF0

VIN = 6.0V, VSEN = 6.0Vâ0.0V

Cd: Open

30

230

Âµs

9

Release Delay Time

(*8)

TDR0

VIN = 6.0V, VSEN = 0.0Vâ6.0V

Cd: Open

30

200

Âµs

9

NOTE:

*1: VDF(T): Setting detect voltage

*2: Current flows the sense resistor is not included.

*3: This numerical value is applied only to the XC6108C series (CMOS output).

*4: Calculated from the voltage value and the current value of the VSEN.

*5: Calculated from the voltage value of the VIN and the current value of the Cd.

*6: The maximum voltage of the VOUT in the range of the VIN 0V to 0.7V when the VIN and the VSEN are short-circuited

This numerical value is applied only to the XC6108C series (CMOS output).

*7: Time which ranges from the state of VSEN=VDF to the VOUT reaching 0.6V when the VSEN falls without connecting to the Cd pin.

*8: Time which ranges from the state of VIN= VDF +VHYS to the VOUT reaching 5.4V when the VSEN rises without connecting to the Cd pin.

6

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