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參數(shù)資料

型號：	PT6948N
廠商：	Texas Instruments, Inc.
英文描述：	XPHASE Phase IC with Opti-Phase OVP with overtemp detect. The IR3087 Phase IC combined with an IR XPhase TM Control IC provides a full featured and flexible way to implement power solutions for the latest high performance CPUs and ASICs.; Similar to IR3087M with Lead Free Packaging on Tape and Reel
中文描述：	開關(guān)電源控制器
文件頁數(shù)：	5/9頁
文件大?。?/td>	190K
代理商：	PT6948N

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Application Notes

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

PT6940 Series

Operating Features of the PT6940 Series

of Dual-Output Voltage Regulators

Over-Current Protection

The PT6940 series of regulators incorporate independent

current limit protection at both outputs (Vo

& Vo

) with a

periodic shutdown of both outputs. Applying a load current,

in excess of the current limit threshold to either output,

results in the shutdown of both voltages after a short

period; typically 15ms. Following shutdown the module

periodically attempts to recover by executing a soft start

power-up at intervals of approximately 100ms. If the over-

current fault persists, each attempted restart will result in a

corresponding over-current trip and shutdown. During

the 15ms period prior to each successive shutdown, the

output with the load fault may not reach full regulation.

Figure 2

Power-Up Voltage Sequencing

The output voltages from the PT6940 series regulators are

independently regulated, and internally sequenced to meet

the power-up requirements of popular microprocessors

and DSP chipsets. Figure 1 shows the output voltage wave-

forms of a PT6942 (3.3V/1.8V) after either input power is

applied, or the regulator is enabled. In this example turning

off in Figure 2, removes the low-voltage signal at pin 1

and enables the regulator. Following a delay of about 3–5ms,

and Vo

rise together until the lower voltage, Vo

reaches its regulation voltage. Vo

then continues to rise

until both outputs reach full regulation. The total power-

up time is less than 15ms, and is relatively independent of

load, temperature, and output capacitance. The turn-off of

corresponds to the rise in V

STBY

. The waveforms were

measured with a 5V input voltage, and with resistive loads

of 4A at both the Vo

and Vo

outputs.

Figure 1

Inhibit

COM

BSS138

PT6940

–

Vin

Adj

Sns

STBY*

V1 (1V/Div)

V2 (1V/Div)

Vstby (5V/Div)

HORIZ SCALE (2ms/Div)

Notes:

1. The standby control input is

Not

compatible with TTL or

other devices that incorporate a totem-pole output drive. Use

only a true open-collector device, preferably a discrete bipolar

transistor (or MOSFET). To ensure the regulator output is

disabled, the control pin must be pulled to less than 0.4Vdc

with a low-level 0.5mA sink to ground.

2 Do not use an an external pull-up resistor. The control pin

has its own internal pull-up. Adding an external pull-up

could disable the over-current protection. The open-circuit

voltage of the

“STBY*”

pin is the input voltage, V

Standby Control

The output voltages from the PT6940 may be disabled

using the regulator’s

Standby

control. The standby function

is provided by the

“STBY*”

control (pin 1). If pin 1 is left

open-circuit the regulator operates normally, and provides

a regulated output at both Vo

(pins 4–6) and Vo

(pins 23–

25) whenever a valid input source voltage is applied to V

(pins 13–16) with respect to GND (pins 7-12 & 17–22).

Applying a low-impedance sink to ground

at pin 1, simul-

taneously disables both regulated outputs. This places the

regulator in standby mode, and reduces the input current

drawn by the ISR to typically 10mA. The

Standby

control

may also be used to maintain both regulator outputs at zero

volts during the period that input power is applied.

The standby pin is ideally controlled using an open-collector

(or open-drain) discrete transistor (See Figure 2). The

open-circuit voltage is the input voltage, V

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