ADP3208DJCPZ-RL ON Semiconductor, ADP3208DJCPZ-RL Datasheet - Page 34
ADP3208DJCPZ-RL
Manufacturer Part Number
ADP3208DJCPZ-RL
Description
IC CTLR BUCK 7BIT 2PHASE 48LFCSP
Manufacturer
ON Semiconductor
Datasheet
1.ADP3208DJCPZ-RL.pdf
(37 pages)
Specifications of ADP3208DJCPZ-RL
Applications
Controller, Power Supplies for Next-Generation Intel Processors
Voltage - Input
3.3 ~ 22 V
Number Of Outputs
1
Voltage - Output
0.01 ~ 1.5 V
Operating Temperature
-10°C ~ 100°C
Mounting Type
Surface Mount
Package / Case
48-LFCSP
Output Voltage
10 mV
Output Current
40 A
Input Voltage
19 V
Supply Current
6 mA
Switching Frequency
300 KHz
Mounting Style
SMD/SMT
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 10 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ADP3208DJCPZ-RL
Manufacturer:
ON Semiconductor
Quantity:
10
Part Number:
ADP3208DJCPZ-RL
Manufacturer:
ON/安森美
Quantity:
20 000
Set the Initial Transient
5. The resulting waveform will be similar to that
6. If the difference between V
7. Repeat Steps 5 and 6 until no adjustment of C
8. Set the dynamic load step to its maximum step size
9. Ensure that the load step slew rate and the
1. With the dynamic load set at its maximum step
shown in Figure 47. Use the horizontal cursors to
measure V
47. Do not measure the undershoot or overshoot
that occurs immediately after the step.
more than a couple of millivolts, use Equation 46
to adjust C
parallel values to obtain an adequate one because
there are limited standard capacitor values
available (it is a good idea to have locations for
two capacitors in the layout for this reason).
needed. Once this is achieved, do not change C
for the rest of the procedure.
(but do not use a step size that is larger than
needed) and verify that the output waveform is
square, meaning V
powerup slew rate are set to ~150 A/ms to
250 A/ms (for example, a load step of 50 A should
take 200 ns to 300 ns) with no overshoot. Some
dynamic loads have an excessive overshoot at
powerup if a minimum current is incorrectly set
(this is an issue if a VTT tool is in use).
size, expand the scope time scale to 2 ms/div to
5 ms/div. This results in a waveform that may have
two overshoots and one minor undershoot before
achieving the final desired value after V
(see Figure 48).
C
Figure 47. AC Loadline Waveform
CS(NEW)
ACDRP
CS
+ C
. It may be necessary to try several
CS(OLD)
and V
ACDRP
DCDRP
V
and V
V
V
ACDRP
ACDRP
DCDRP
ACDRP
, as shown in Figure
DCDRP
and V
V
DCDRP
are equal.
DROOP
DCDRP
(eq. 46)
http://onsemi.com
CS
CS
is
is
34
Figure 49. Transient Setting Waveform, Load Release
Figure 48. Transient Setting Waveform, Load Step
2. If both overshoots are larger than desired, try the
3. For load release (see Figure 49), if V
following adjustments in the order shown.
a. Increase the resistance of the ramp resistor
(R
b. For V
switching frequency.
c. For V
C
If these adjustments do not change the response, it
is because the system is limited by the output
decoupling. Check the output response and the
switching nodes each time a change is made to
ensure that the output decoupling is stable.
larger than the value specified by IMVP−6+, a
greater percentage of output capacitance is needed.
Either increase the capacitance directly or decrease
the inductor values. (If inductors are changed,
however, it will be necessary to redesign the
circuit using the information from the spreadsheet
and to repeat all tuning guide procedures).
A
V
RAMP
TRAN1
by 25%.
V
TRANREL
) by 25%.
TRAN1
TRAN2
V
TRAN2
, increase C
, increase R
V
DROOP
B
A
or increase the
by 25% and decrease
V
DROOP
TRANREL
is
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