RT9201GQV RICHTEK [Richtek Technology Corporation], RT9201GQV Datasheet - Page 11

RT9201GQV

Manufacturer Part Number

RT9201GQV

Description

High Efficiency PWM Step-Down DC-DC Converter

Manufacturer

RICHTEK [Richtek Technology Corporation]

Datasheet

1.RT9201GQV.pdf (13 pages)

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Over Current Protection

The RT9201 continuously monitors the inductor current

by sensing the voltage across the PMOSFET when it

turns on. When the inductor current is higher than current

limit threshold (1A typical), OCP activates and forces the

PMOSFET turning off to limit inductor current cycle by

cycle.

The current limit is set to 50% level of normal condition

when the output voltage is lower than its 50% normal

level. This can minimize the power loss and protect the

device when over current or output short circuit occurs.

Once output voltage drops below to its 50% normal level

DS9201-12 August 2007

(mV)

(V)

OUT

5.50

5.00

4.50

4.00

3.50

3.00

2.50

2.00

1.50

1.00

Boundary of PWM and Low-Dropout Mode

-100

100

Min. Input Voltage vs. Output Current

100

Sub-Harmonic at Boundary

200

Output Current (mA)

Figure 1

Figure 2

Low Dropout Mode

Time (10 s/Div)

Condition

300

PWM Mode

OUT

(mA)

= 3.8V, V

400

= 600mA, C

OUT

500

OUT

= 3.3V

= 2.5V

= 1.8V

OUT

= 3.3V

600

= 100uF

700

due to over current or short circuit, it can build up only

when output current is lower 50% of normal current limit

threshold.

Output Voltage Setting and Feedback Network

The output voltage can be set from V

divider as:

The internal V

application, keep R

respectively and choose appropriate R

according to the required output voltage. Make sure that

the product of R

following table shows recommended feedback network

as well as inductor for some typical output voltages.

Table 1. Component Selection for Typical Application

Inductor Selection

The output inductor is suggested as the above table for

optimal performance. Make sure that the inductor will

not saturate over the operation conditions including

temperature range, input voltage range, and maximum

output current. If possible, choose an inductor with rated

current higher than 1A so that it will not saturate even

under circuit condition.

Input Capacitor Selection

The input capacitor can filter the input peak current and

noise at input voltage source. The capacitor with low ESR

(effective series resistance) provides the small drop

voltage to stabilize the input voltage during the transient

loading. For input capacitor selection, the ceramic

capacitors larger than 10 F is recommend. The capacitor

must conform to the RMS current requirement. The

maximum RMS ripple current is calculated as :

0.85

(V)

1.5

2.5

3.3

OUT

RMS

OUT

343k

820k

1.2M

24k

( )

OUT(MAX)

REF

is 0.8V with 1% accuracy. In practical

(pF)

330

5.6

and C

OUT

= 390k

390k

( )

is about 8200k -pF. The

(pF)

REF

OUT

and C

to V

RT9201

)

www.richtek.com

( H)

4.7

6.8

by a voltage

and C

= 10pF

1000

(pF)

330

470

680

RT9201GQV RICHTEK [Richtek Technology Corporation], RT9201GQV Datasheet - Page 11

RT9201GQV

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