PT6300 Datasheet, PDF(5/8 Page) Texas Instruments – 3 AMP ADJUSTABLE POSITIVE STEP-DOWN INTEGRATED SWITCHING REGULATORS

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PT6300 Datasheet, PDF (5/8 Pages) Texas Instruments – 3 AMP ADJUSTABLE POSITIVE STEP-DOWN INTEGRATED SWITCHING REGULATORS

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Application Notes

PT6100/6210/6300 Series

Using the Inhibit Function on Power Trendsâ

Wide Input Range Bus ISRs

For applications requiring output voltage On/Off control,

the 12pin ISR products incorporate an inhibit function.

The function has uses in areas such as battery conservation,

power-up sequencing, or any other application where the

regulated output from the module is required to be

switched off. The On/Off function is provided by the

Pin 1 (Inhibit) control.

The ISR functions normally with Pin 1 open-circuit,

providing a regulated output whenever a valid source

voltage is applied to Vin, (pins 2, 3, & 4). When a low-

level2 ground signal is applied to Pin 1, the regulator

output will be disabled.

Figure 1 shows an application schematic, which details

the typical use of the Inhibit function. Note the discrete

transistor (Q1). The Inhibit control has its own internal

pull-up with a maximum open-circuit voltage of 8.3VDC.

Only devices with a true open-collector or open-drain

output can be used to control this pin. A discrete bipolar

transistor or MOSFET is recommended.

Equation 1 may be used to determine the approximate

current drawn by Q1 when the inhibit is active.

Equation 1

Istby

= Vin Ã· 155kâ¦ Â± 20%

Figure 1

Vin

C1, 1ÂµF

(Optional)

Inh

COM

PT6100/6210/6300

2,3,4

9,10,11

Vin

Inh*

GND Vo(adj)

5,6,7,8 12

BSS138

1 0 0 ÂµF

Vout

COM

Turn-On Time: The output of the ISR is enabled automatically

when external power is applied to the input. The Inhibit control

pin is pulled high by its internal pull-up resistor. The ISR

produces a fully regulated output voltage within 1-msec of

either the release of the Inhibit control pin, or the application

of power. The actual turn-on time will vary with the input

voltage, output load, and the total amount of capacitance con-

nected to the output Using the circuit of Figure 1, Figure 2

shows the typical rise in output voltage for the PT6101

following the turn-off of Q1 at time t =0. The waveform was

measured with a 9Vdc input voltage, and 5-Ohm resistive load.

Figure 2

Notes:

1. The Inhibit control logic is similar for all Power Trendsâ

modules, but the flexibility and threshold tolerances will be

different. For specific information on the inhibit function

of other ISR models, consult the applicable application

note.

2. Use only a true open-collector device (preferably a discrete

transistor) for the Inhibit input. Do Not use a pull-up

resistor, or drive the input directly from the output of a

TTL or other logic gate. To disable the output voltage,

the control pin should be pulled low to less than +1.5VDC.

3. When the Inhibit control pin is active, i.e. pulled low, the

maximum allowed input voltage is limited to +30Vdc.

4. Do not control the Inhibit input with an external DC

voltage. This will lead to erratic operation of the ISR and

may over-stress the regulator.

5. Avoid capacitance greater than 500pF at the Inhibit control

pin. Excessive capacitance at this pin will cause the ISR to

produce a pulse on the output voltage bus at turn-on.

6. Keep the On/Off transition to less than 10Âµs. This

prevents erratic operation of the ISR, which can cause a

momentary high output voltage.

-0.2

0.2

0.4

0.6

0.8

t (milli-secs)

For technical support and more information, see inside back cover or visit www.ti.com/powertrends

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