S-19104N10H-M5T1U Datasheet, PDF(19/40 Page) Seiko Instruments Inc

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S-19104N10H-M5T1U Datasheet, PDF (19/40 Pages) Seiko Instruments Inc – VOLTAGE DETECTOR WITH SENSE PIN

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FOR AUTOMOTIVE 105Â°C OPERATION BUILT-IN DELAY CIRCUIT (EXTERNAL DELAY TIME SETTING) VOLTAGE DETECTOR WITH SENSE PIN

Rev.1.2_00

S-19104/19106 Series

2. 3 Power on sequence

Apply power in the order, the VDD pin then the SENSE pin.

As seen in Figure 25, when VSENSE â¥ +VDET, the OUT pin output (VOUT) rises and the S-19104/19106 Series

becomes the release status (normal operation).

VDD

VSENSE

+VDET

VOUT

tRESET

Figure 25

Caution If power is applied in the order the SENSE pin then the VDD pin, an erroneous release may occur

even if VSENSE < +VDET.

2. 4 Precautions when shorting between the VDD pin and the SENSE pin

2. 4. 1 Input resistor

Do not connect the input resistor (RA) when shorting between the VDD pin and the SENSE pin.

A feed-through current flows through the VDD pin at the time of release. When connecting the circuit shown as

Figure 26, the feed-through current of the VDD pin flowing through RA will cause a drop in VSENSE at the time of

release.

At that time, oscillation may occur if VSENSE â¤ âVDET.

VDD

SENSE

OUT

VDD

VSS

Figure 26

2. 4. 2 Parasitic resistance and parasitic capacitance

Due to the difference in parasitic resistance and parasitic capacitance of the VDD pin and the SENSE pin,

power may be applied to the SENSE pin first.

Note that an erroneous release may occur if this happens (refer to "2. 3 Power on sequence").

Caution

In CMOS output product, make sure that the VDD pin input impedance does not become too

high, regardless of the above. Since a feed-through current is large, a malfunction may occur if

the VDD pin voltage changes greatly at the time of release.

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