sc2516 Semtech Corporation, sc2516 Datasheet - Page 10

sc2516

Manufacturer Part Number

sc2516

Description

Sc2516 Complete Three-in-one Ddr Power Solution With Bf_cut

Manufacturer

Semtech Corporation

Datasheet

1.SC2516.pdf (15 pages)

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when

(5) The compensation capacitor is determined by choos-

ing the compensator zero to be about one fifth of the

output filter corner frequency:

(6) The final step is to generate the Bode plot, either by

using the simulation model in Fig. 1 or using the equa-

tions provided here with Mathcad. The phase margin

can then be checked using the Bode plot. Usually, this

design procedure ensures a healthy phase margin.

(7) An additional capacitor should be reserved at the

compensation pin to ground to have another high fre-

quency pole.

An example is given below to demonstrate the proce-

dure introduced above. The parameters of the power

supply (typical for VDDQ section) are given as :

POWER MANAGEMENT

Applications Information (Cont.)

pwm

⋅

ramp

⋅

F zero

2.2 µH

20 A ⋅

esr

0.01 Ω

2.5 V ⋅

4500 µF

5 V ⋅

1.25 V ⋅

0.001 A ⋅

250 KHz

⋅

⎛

⎜

⎝

0.55 V ⋅

2 π . R . F zero

⋅

esr

F o

⎞

⎠

⋅

x_over

⎛

⎜

⎝

x_over

⎞

⎠

⋅

⎛

⎜

⎝

⎞

⎠

Step 1. Output filter corner frequency

Step 2. ESR zero frequency:

Step 3. Check the following condition:

Which is satisfied in this case.

Step 4. Choose crossover frequency and calculate

compensator R:

Step 5. Calculate the compensator C:

Step 6. Generate Bode plot and check the phase margin.

In this case, the phase margin is about 85

sures the loop stability. Fig. 2 shows the Bode plot of the

loop.

Compensation design of the GMCH Channel

The configuration of the PWM comparator of GMCH

channel is such that its inverter input is connected to

Comp_GMCH and the non-inverter input is connected

to the internal ramp. The peak voltage of the internal

ramp is 1.1V and the valley voltage is 0.55V. When

COMP_GMCH voltage is below 0.55V, the maximum duty

cycle will be generated by PWM comparator. If

COMP_GMCH voltage is over 1.1V then the minimum

duty cycle will be generated.

To ensure proper soft start function of the GMCH

channel, COMP_GMCH voltage must rise above 1.1V at

the beginning of soft start period quickly. So a higher

compensation gain is required. The following example

shows that by choosing the compensation parameters

as 15kOhm and 27nF for a typical output filter with

1~2uH inductor and 2000uF capacitor (ESR of 8~12

mOhm), the circuit will yield smooth soft start, stable

control loop, and satisfactory transient response. The

measured Bode plot of the loop gain is shown in Figure

R = 15 KΩ

C = 33 nF

esr

x_over

esr

= 1.6 KHz

= 3.537 KHz

= 50 KHz

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sc2516 Semtech Corporation, sc2516 Datasheet - Page 10

sc2516

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