Rev. 1.2

_00

Seiko Instruments Inc.

Temperature Switch with Latch

S-8130AA

The S-8130AA is a temperature switch with a latch function

having a built-in semiconductor temperature sensor with the
accuracy of ±2.5°C. The output signal is inverted when the
temperature is detected, and latched until a reset signal input or a
detection of the power voltage lowering.

Low voltage operation down to 2.2 V is possible and the current

consumption is low, 15

µA (typ.), due to CMOS configuration.

The S-8130AA consists of a temperature sensor having the

temperature coefficient of

-13 mV/°C, a reference voltage source,

a comparator, voltage detection circuit, and noise suppression
circuit all of which is enclosed in a small 8-Pin MSOP package.

Available temperature range is between

-40 to +100 °C and wide

application in temperature control can be achieved since the output
linearity is excellent compared to other sensors including
thermistor.

Features

Applications

· Detection temperature : +60 to +95°C, 5°C step

· Game console

· Detection accuracy : ±2.5°C

· Electronic devices

· V

grounded temperature voltage output

· Low voltage operation : V

(min.)=2.2 V

· Low current consumption : 15 µA typ. (+25°C)

· Output logic level is fixed by the latch after temperature detection

· Noise suppression at temperature detection

· Small plastic package : 8-Pin MSOP

Package

· 8-Pin MSOP (PKG drawing code : FN008-A)

Temparature Switch with Latch

Rev. 1.2

_00

S-8130AA

Seiko Instruments Inc.

Block diagram

S-8130AAXFN-XXX-T2 (Fixed detection temperature)

VDD

VSS

Temparature

Sensor

D-F/F

CD1

CD2

RESET

Reference

voltage source

Voltage detector

with delay circuit

DET

Vref

VOUT

R T

Vref

Figure 1

Selection Guide

Product name

S - 8130 A A X F N - X X X - T 2

Taping direction (Direction of IC in tape)

Abbreviated Code

Option code

Option list

· Detection temperature T

DET

can be selected 5°C step in the range between 60 and 95°C.

· DET output should be high-active or low-active.

· Release voltage V

RET

can be selected 0.1 V step in the range between 2.2 and 3.4 V.

· RESET pin should be selected from PuII-up or Nch Open Drain.

Product name

DET

DET output

RET

RESET

S-8130AAAFN-MAA-T2 80°C High-active 2.4

V Pull-up

S-8130AACFN-MAE-T2 86°C High-active 2.9

V Pull-up

When other combination is required, please ask our sales office.

Rev. 1.2

_00

Temperature Switch with Latch

S-8130AA

Seiko Instruments Inc.

Pin configuration

8-Pin MSOP

Top view

VDD

DET

CD2

CD1

VOUT

VSS

RESET

Figure

Pin Description

Pin No.

Pin Name

Function

Input/Output

VDD

Positive power supply pin

DET

Output pin for detection at the defined
temperature

CMOS output : Output logic is
selectable

CD2

Capacitor connection pin for delay time
setting in voltage detection

Input/Output

CD1

Capacitor connection pin for noise
filtering time

Input/Output

5 VSS Ground

RESET

Input/Output pin for reset
Low -active

Input : CMOS
Output : N channel open drain
(Pull-up resistance is optional)

Reference voltage input pin (short-
circuited to VOUT pin internally)

Input

VOUT

Output pin for reference voltage from the
internal comparator

Output

Absolute maximum ratings

(Ta = 25

°C unless otherwise specified)

Parameter Symbol

Ratings

Unit

Supply voltage (V

=0.0 V)

+12

Pin voltage

OUT

, V

RESET

, V

DET

, V

CD1

, V

CD2

-0.3 to V

+0.3

Operating temperature

opr

-40 to +100

°C

Storage temperature

stg

-55 to +125 °C

Caution The absolute maximum ratings are rated values exceeding which the product could suffer

physical damage. These values must therefore not be exceeded under any conditions.

Recommended values for external parts

Parameters Symbol

Value Unit

CD1 capacitance

4.7 nF

CD2 capacitance

4.7 nF

Temparature Switch with Latch

Rev. 1.2

_00

S-8130AA

Seiko Instruments Inc.

DC Electrical Characteristics

(Ta=25°C, V

=0 V unless otherwise specified)

Parameters Symbol Conditions

Min.

Typ.

Max.

Unit

Supply voltage

2.2

10.0 V

Detection
temperature

DET

-2.5

DET

+2.5

°C

Output current 1

DETH

=3 V

Applied to

DET

=2.2 V

DETL

DET

pin V

DET

=0.4 V

0.5

Input voltage

ONH

Applied to

RESET

0.8

× V

ONL

0.2

× V

Pull-up resistance

Applied to

RESET

=0 V, V

=3.0 V

30 100 300

Release voltage for
voltage detector

RET

0.98

RET

1.02

Hysteresis width for
voltage detector

HYS

RET

0.05

Output current for
voltage detector

RSTL

=3.0 V, V

RESET

=0.5 V

Applied to

RESET

0.5

Temperature
coefficient for voltage
detector

Ta V

RET

Ta=

-40 to 100°C

±100

ppm/

°C

Operating current

=3.3 V

15 30

µA

AC Electrical Characteristics

(Ta=25°C unless otherwise specified)

Parameters Symbol Conditions

Min. Typ. Max. Unit

Noise filtering time

noise

=4.7 nF, V

=3 V

Delay time for

voltage detector

delay

=4.7 nF, V

=3 V

Definition of the symbols used in the voltage detection circuit

delay

Release voltage (V

RET

)

Detection voltage

Minimum operating voltage

RESETpin voltage (V

)

Hysteresis width

HYS

)

Figure

Rev. 1.2

_00

Temperature Switch with Latch

S-8130AA

Seiko Instruments Inc.

Description of Operation

1. Basic operation

S-8130AA series is a temperature switch which detects a certain temperature and sends a signal to an

external device. Combination of the parameters such as detection temperature, release voltage can be
selected.

In the following DET output is supposed to be high-active.
When the power voltage is turned on, the DET pin voltage goes to "L" since the flip-flop circuit in the

detection circuit is cleared by the delayed voltage detection circuit. Temperature detection then starts and the
DET pin is held "L" as long as the temperature is lower than the detection temperature. The temperature goes
high and exceeds the detection temperature for longer than the time defined by the capacitor connected to the
CD1 pin, then the DET pin goes to "H". Once the over-temperature is detected and the DET pin goes to "H", the
state is held by the flip-flop circuit. In order to release the state the RESET pin voltage should be set to "L" by
the external signal or the power voltage should be set under the detection voltage of the built-in detector to reset
the internal circuit.

Using the internal reference voltage and built-in temperature sensor, the accuracy of ±2.5

°C in the detection

temperature is achieved.

Noise filtering circuit

The noise filtering circuit prevents malfunction of the temperature switch caused by noise.
The noise filtering circuit starts charging of the capacitor connected to the CD1 pin when the output of the
internal comparator enters active state due to an external noise or a rapid change in the power voltage. In
the normal operation the flip-flop circuit is set when the capacitor is charged to a certain voltage. But in the
noise triggered operation the comparator output goes back to inactive state and the CD1 pin voltage is held
low since the charging of the capacitor is insufficient. As a result the DET pin is held low and malfunction
does not occur.

Noise filtering time, T

noise

, is determined by the time constant consisting of internal constant current and the

capacitance C

, and calculated by the following equation.

noise

(ms)=Noise fitering time coefficient

× C

(nF)

Noise fitering time coefficient (25°C): Typ. 6.4

2. Voltage detection circuit with delay

The delay circuit of the voltage detector provides a delayed output signal to the RESET pin when the power
voltage V

rises and exceeds the release voltage V

On the other hand no delay occurs when the power

voltage V

goes lower than the detection voltage, V

-V

HYS

The delay time, T

delay

, is determined by the time constant consisting of internal constant current and the

capacitance C

, and calculated by the following equation.

delay

(ms)=Delay coefficient

× C

(nF)

Delay coefficient (25°C): Min. 4.3, Typ. 6.4, Max. 8.5

· When the board wiring is made, attention should be paid that no current flows into or flows out of the

CD2 pin to have correct delay time since the impedance of the CD2 pin is high.

· Capacitance of the external capacitor C

has no limitation as long as its leak current is negligible

compared to the internal constant current. Error in delay time occurs If the capacitor has leak current.
When the leak current is larger than the internal constant current, no release takes place.

Temparature Switch with Latch

Rev. 1.2

_00

S-8130AA

Seiko Instruments Inc.

Application circuit

Protection

circuit

VSS

CD1

VDD

DET

CD2

S-8130AA

RESET

Open

VOUT

C P U

VSS

Output port
(Input port)

VDD

Figure 4

Caution The above connection diagram will not guarantee successful operation.

Precautions

(1) Since the S-8130AA has a voltage detector inside , control for the

RESET

pin is not necessary to activate

the circuit unlike the Figure 4. In this case the

RESET

pin should be open.

(2) A capacitor of around 1

µF should be connected to the DET pin to prevent malfunction caused by a noise

due to the power on.

(3) Nothing should be connected to the VOUT pin and the RT pin. These pins should be left open.
(4) Do not apply an electrostatic discharge to this IC that exceeds the performance ratings of the built-in

electrostatic protection circuit.

The information described herein is subject to change without notice.

Seiko Instruments Inc. is not responsible for any problems caused by circuits or diagrams described herein
whose related industrial properties, patents, or other rights belong to third parties. The application circuit
examples explain typical applications of the products, and do not guarantee the success of any specific
mass-production design.

When the products described herein are regulated products subject to the Wassenaar Arrangement or other
agreements, they may not be exported without authorization from the appropriate governmental authority.

Use of the information described herein for other purposes and/or reproduction or copying without the
express permission of Seiko Instruments Inc. is strictly prohibited.

The products described herein cannot be used as part of any device or equipment affecting the human
body, such as exercise equipment, medical equipment, security systems, gas equipment, or any apparatus
installed in airplanes and other vehicles, without prior written permission of Seiko Instruments Inc.

Although Seiko Instruments Inc. exerts the greatest possible effort to ensure high quality and reliability, the
failure or malfunction of semiconductor products may occur. The user of these products should therefore
give thorough consideration to safety design, including redundancy, fire-prevention measures, and
malfunction prevention, to prevent any accidents, fires, or community damage that may ensue.

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