NCV5171EDR2G ON Semiconductor, NCV5171EDR2G Datasheet - Page 9

NCV5171EDR2G

Manufacturer Part Number

NCV5171EDR2G

Description

IC REG BOOST 1.5A 280KHZ 8-SOIC

Manufacturer

ON Semiconductor

Type

Step-Up (Boost), Inverting, Flyback, Forward Converter, Sepicr

Datasheet

1.NCV5171EDR2G.pdf (19 pages)

Specifications of NCV5171EDR2G

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Current - Output

1.5A

Frequency - Switching

280kHz

Voltage - Input

2.7 ~ 30 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Mounting Style

SMD/SMT

Operating Temperature Range

- 40 C to + 150 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Power - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Quantity

Price

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Current page: 9 of 19
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THEORY OF OPERATION

Current Mode Control

mode control scheme, in which the PWM ramp signal is

derived from the power switch current. This ramp signal is

compared to the output of the error amplifier to control the

on−time of the power switch. The oscillator is used as a

fixed−frequency clock to ensure a constant operational

frequency. The resulting control scheme features several

advantages over conventional voltage mode control. First,

derived directly from the inductor, the ramp signal responds

immediately to line voltage changes. This eliminates the

delay caused by the output filter and error amplifier, which

is commonly found in voltage mode controllers. The second

benefit comes from inherent pulse−by−pulse current

limiting by merely clamping the peak switching current.

Finally, since current mode commands an output current

rather than voltage, the filter offers only a single pole to the

feedback loop. This allows both a simpler compensation and

a higher gain−bandwidth over a comparable voltage mode

circuit.

control comes with its own peculiar problems, mainly,

subharmonic oscillation at duty cycles over 50%.

NCV5171/73 solves this problem by adopting a slope

compensation scheme in which a fixed ramp generated by

the oscillator is added to the current ramp. A proper slope

rate is provided to improve circuit stability without

sacrificing the advantages of current mode control.

Oscillator and Shutdown

Current

Figure 23. Timing Diagram of Sync and Shutdown

Ramp

The NCV5171/73 boost regulator incorporates a current

Without discrediting its apparent merits, current mode

Slope Compensation

Sync

Oscillator

Figure 22. Current Mode Control Scheme

PWM

Comparator

SUMMER

−

Driver

Power Switch

In Out

63 mW

APPLICATIONS INFORMATION

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accuracy. The output of the oscillator turns on the power

switch at a frequency of 280 kHz (NCV5171) or 560 kHz

(NCV5173) as shown in Figure 22. The power switch is

turned off by the output of the PWM Comparator.

syncing up to 1.8 times the base oscillator frequency. As

shown in Figure 23, in order to sync to a higher frequency,

a positive transition turns on the power switch before the

output of the oscillator goes high, thereby resetting the

oscillator. The sync operation allows multiple power

supplies to operate at the same frequency.

and reduce the supply current.

the nominal frequency when the FB pin triggers the

threshold. During power up, overload, or short circuit

conditions, the minimum switch on−time is limited by the

PWM comparator minimum pulse width. Extra switch

off−time reduces the minimum duty cycle to protect external

components and the IC itself.

for the slope compensation to improve regulator stability.

Error Amplifier

the positive error amplifier, whose non−inverting input is

fed by the 1.276 V reference. It is a transconductance

amplifier with a high output impedance of approximately

1 MW, as shown in Figure 24. The V

output of the error amplifiers and is internally clamped

between 0.5 V and 1.7 V. A typical connection at the V

includes a capacitor in series with a resistor to ground,

forming a pole/zero for loop compensation.

and ground to reduce its clamp voltage. Consequently, the

current limit of the internal power transistor current is

reduced from its nominal value.

The oscillator is trimmed to guarantee an 18% frequency

A TTL−compatible sync input at the SS pin is capable of

A sustained logic low at the SS pin will shut down the IC

An additional feature includes frequency shift to 20% of

As previously mentioned, this block also produces a ramp

The FB pin is directly connected to the inverting input of

An external shunt can be connected between the V

Figure 24. Error Amplifier Equivalent Circuit

NCV5171/73

1.276 V

−

positive error−amp

1MW

120 pF

pin is connected to the

Voltage

Clamp

0.01 mF

5 kW

NCV5171EDR2G ON Semiconductor, NCV5171EDR2G Datasheet - Page 9

NCV5171EDR2G

Specifications of NCV5171EDR2G

Available stocks

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