RNA51953A_15 Datasheet, PDF(8/11 Page) Renesas Technology Corp – Voltage Detecting, System Resetting IC Series

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RNA51953A_15 Datasheet, PDF (8/11 Pages) Renesas Technology Corp – Voltage Detecting, System Resetting IC Series

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RNA51953A, B

Preliminary

Notice for use

About the Power Supply Line

1. About bypass capacitor

Because the ripple and the spike of the high frequency noise and the low frequency are superimposed to the power

supply line, it is necessary to remove these.

Therefore, please install C1 and C2 for the low frequency and for the high frequency between the power supply line

and the GND line as shown in following figure 3.

VCC

C1+ C2

Example of ripple

noise measures

Power-supply

RNA51953

Output

GND

Delay capacitor

Figure 3 Example of Ripple Noise Measures

Setting of Delay Capacity

Please use capacitor Cd for the delay within the range of 10 ïF or less.

When a value that is bigger than this is set, the problem such as following (1), (2), and (3) becomes remarkable.

VCC

tpd

Output

tPHL

Figure 4 Time Chart at Momentary Voltage-Decrease

(1) The difference at delay time becomes remarkable.

A long delay setting of tens of seconds is fundamentally possible. However, when set delay time is lengthened, the

range of the difference relatively grows, too. When a set value is assumed to be âtpdâ, the difference occurs in the

range from 0.47 ï´ tpd to 2.05 ï´ tpd. For instance, 34 seconds can be calculated at 100 ïF. However, it is likely to

vary within the ranges of 16-70 seconds.

(2) Difficulty to react to a momentary voltage decrease.

For example, the reaction time tPHL is 10 ïs when delay capacitor Cd = 0.1 ïF.

The momentary voltage-decrease that is longer than such tPHL are occurs, the detection becomes possible. When the

delay capacitance is enlarged, tPHL also becomes long. For instance, it becomes about 100 to 200 ïs in case of

circuit constant C1 = 100 ïF.

(Characteristic graph 1 is used and extrapolation in case of Cd = 100 ïF.)

Therefore, it doesn't react to momentary voltage-decrease that is shorter than this.

(3) Original delay time is not obtained.

When the momentary voltage-decrease time âtâ is equivalent to tPHL, the discharge becomes insufficient and the

charge starts at that state. This phenomenon occurs at large capacitance. And, original delay time tpd is not

obtained.

Please refer to characteristic graph 2. (Delay time versus input pulse width)

R03DS0009EJ0500 Rev.5.00

Jun 19, 2012

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