VIN = 12 V, VOUT = 1.2 V, TA = 25°C, BOM = Table 8-1, (unless
otherwise noted)
| |
|
|
| 12 V to 1.2 V, 1 A |
2.2 μH, 1 MHz |
First L-C Only |
Figure 6-1 VOUT Ripple After the First L-C Filter
| | | |
| 12 V to 1.2 V, 1 A |
2.2 μH, 1
MHz |
First and second
L-C |
Figure 6-3 VOUT Ripple After the Second L-C Filter
| 12 V to 1.2 V, 1 A | 2.2 μH, 1 MHz | First L-C Only |
| With
Random Spread Spectrum Enabled |
Figure 6-5 VOUT Ripple After the First L-C Filter
| 12 V to 1.8 V, 1 A |
2.2 μH, 1 MHz |
First L-C Only |
| |
|
|
Figure 6-7 VOUT Ripple After the First L-C Filter 
| 12 V to 1.8 V, 1 A |
2.2 μH, 1 MHz |
First and second
L-C |
| |
|
|
Figure 6-9 VOUT Ripple After the Second L-C Filter
| 12 V to 3.3 V, 1 A |
2.2 μH, 2.2 MHz |
First L-C Only |
| |
|
|
Figure 6-11 VOUT Ripple After the First L-C Filter 
| 12 V to 3.3 V, 1 A |
2.2 μH, 2.2 MHz |
First and second
L-C |
|
|
|
Figure 6-13 VOUT Ripple After
the Second L-C Filter
| 5 V to 1.2 V, 1 A |
2.2 μH, 2.2 MHz |
First L-C Only |
| |
|
|
Figure 6-15 VOUT Ripple After the First L-C Filter 
| 5 V to 1.2 V, 1 A |
2.2 μH, 2.2 MHz |
First and second
L-C |
| |
|
|
Figure 6-17 VOUT Ripple after the Second L-C Filter
| 5 V to 1.8 V, 1 A |
2.2 μH, 2.2 MHz |
First L-C Only |
| |
|
|
Figure 6-19 VOUT Ripple After the First L-C Filter 
| 5 V to 1.8 V, 1 A |
2.2 μH, 2.2 MHz |
First and second
L-C |
| |
|
|
Figure 6-21 VOUT Ripple After the Second L-C Filter
| 5 V to 3.3 V, 1 A |
2.2 μH, 2.2 MHz |
First L-C Only |
| |
|
|
Figure 6-23 VOUT Ripple After the First L-C Filter 
| 5 V to 3.3 V, 1 A |
2.2 μH, 2.2 MHz |
First and second
L-C |
| |
|
|
Figure 6-25 VOUT Ripple After the Second L-C Filter
| 6 V to 1.2 V, 1 A |
2.2 μH, 1 MHz |
BW = 50 Hz |
| S-CONF = OFF,
Triangular, Random |
Figure 6-27 Spread Spectrum FFT - 50-Hz BW
| 12 V to 1.2 V |
2.2 μH, 1 MHz |
First L-C Only |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-29 Output Noise Density vs Frequency
| 12 V to 1.2 V |
2.2 μH, 1 MHz |
First L-C Only |
| NR/SS = 470 nF, CFF = Open, 100 nF, 1 μF, BW
= 100 Hz to 100 kHz |
Figure 6-31 Output Noise Density vs Frequency
| 12 V to 1.8 V |
2.2 μH, 1 MHz |
First L-C Only |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-33 Output Noise Density vs Frequency
| 12 V to 1.8 V |
2.2 μH, 1 MHz |
First L-C Only |
| NR/SS = 470 nF, CFF = Open, 100 nF, 1 μF, BW
= 100 Hz to 100 kHz |
Figure 6-35 Output Noise Density vs Frequency
| 12 V to 3.3 V |
2.2 μH, 2.2 MHz |
First L-C Only |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-37 Output Noise Density vs Frequency
| 12 V to 3.3 V |
2.2 μH, 2.2 MHz |
First L-C Only |
| NR/SS = 470 nF, CFF = Open, 100 nF, 1 μF, BW
= 100 Hz to 100 kHz |
Figure 6-39 Output Noise Density vs
Frequency
| 5 V to 1.2 V |
2.2 μH, 2.2 MHz |
First L-C Only |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-41 Output Noise Density vs Frequency
| 5 V to 3.3 V |
2.2 μH, 2.2 MHz |
First L-C Only |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-43 Output Noise Density vs Frequency
| 12 V to 1.2 V | 2.2 μH, 1 MHz | 1 A, 2 A, 3 A |
| First L-C Only, No Ferrite Bead |
Figure 6-45 PSRR
vs Frequency
| 12 V to 1.8 V | 2.2 μH, 1 MHz | 1 A, 2 A, 3 A |
| First L-C Only, No Ferrite Bead |
Figure 6-47 PSRR
vs Frequency
Figure 6-49 High-Side RDS(ON) vs Junction Temperature
Figure 6-51 FB Pin Voltage Error vs Input
Voltage
Figure 6-53 Output Voltage Error vs Load
Figure 6-55 Oscillator Frequency vs
Temperature
Figure 6-57 Output Discharge
Resistance vs Output Voltage
|
BW = 10
kHz |
|
| 12 V to 1.2 V, 1 A |
2.2 μH, 1
MHz |
First L-C Only |
Figure 6-2 VOUT Ripple FFT After the First L-C Filter
|
BW = 10 kHz |
|
| 12 V to 1.2 V, 1 A |
2.2 μH, 1
MHz |
First and second
L-C |
Figure 6-4 VOUT Ripple FFT After the Second L-C Filter
| 12 V to 1.2 V, 1 A |
2.2 μH, 1 MHz |
First and second
L-C |
| With
Random Spread Spectrum Enabled |
Figure 6-6 VOUT Ripple After the Second L-C Filter
| |
BW = 10 kHz |
|
| 12 V to 1.8 V, 1 A |
2.2 μH, 1
MHz |
First L-C Only |
Figure 6-8 VOUT Ripple FFT After the First L-C Filter 
|
BW = 10
kHz |
|
| 12 V to 1.8 V, 1 A |
2.2 μH, 1
MHz |
First and second
L-C |
Figure 6-10 VOUT Ripple FFT After the Second L-C Filter
|
BW = 10 kHz |
|
| 12 V to 3.3 V, 1 A |
2.2 μH, 2.2
MHz |
First L-C Only |
Figure 6-12 VOUT Ripple FFT After the First L-C Filter 
|
BW = 10 kHz |
|
| 12 V to 3.3 V, 1 A |
2.2 μH, 2.2
MHz |
First and second
L-C |
Figure 6-14 VOUT Ripple FFT After the Second L-C Filter
|
BW = 10 kHz |
|
| 5 V to 1.2 V, 1 A |
2.2 μH, 2.2
MHz |
First L-C Only |
Figure 6-16 VOUT Ripple FFT After the First L-C Filter 
|
BW = 10 kHz |
|
| 5 V to 1.2 V, 1 A |
2.2 μH, 2.2
MHz |
First and second
L-C |
Figure 6-18 VOUT Ripple FFT After the Second L-C Filter
|
BW = 10 kHz |
|
| 5 V to 1.8 V, 1 A |
2.2 μH, 2.2
MHz |
First L-C Only |
Figure 6-20 VOUT Ripple FFT After the First L-C Filter 
|
BW = 10 kHz |
|
| 5 V to 1.8 V, 1 A |
2.2 μH, 2.2
MHz |
First and second
L-C |
Figure 6-22 VOUT Ripple FFT After the Second L-C Filter
|
BW = 10 kHz |
|
| 5 V to 3.3 V, 1 A |
2.2 μH, 2.2
MHz |
First L-C Only |
Figure 6-24 VOUT Ripple FFT After the First L-C Filter 
|
BW = 10 kHz |
|
| 5 V to 3.3 V, 1 A |
2.2 μH, 2.2
MHz |
First and second
L-C |
Figure 6-26 VOUT Ripple FFT After the Second L-C Filter
| 12 V to 1.2 V, 2 A |
2.2 μH, 1 MHz |
BW = 10 kHz |
| S-CONF = OFF,
Triangular, Random |
Figure 6-28 Spread Spectrum FFT - 10-kH BW
| 12 V to 1.2 V |
2.2 μH, 1 MHz |
After ferrite bead
filter |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-30 Output Noise Density vs Frequency
| 12 V to 1.2 V |
2.2 μH, 1 MHz |
After ferrite bead
filter |
| NR/SS = 470 nF, CFF = Open, 100 nF, 1 μF, BW
= 100 Hz to 100 kHz |
Figure 6-32 Output Noise Density vs Frequency
| 12 V to 1.8 V |
2.2 μH, 1 MHz |
After ferrite bead
filter |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-34 Output Noise Density vs Frequency
| 12 V to 1.8 V |
2.2 μH, 1 MHz |
After ferrite bead
filter |
| NR/SS = 470 nF, CFF = Open, 100 nF, 1 μF, BW
= 100 Hz to 100 kHz |
Figure 6-36 Output Noise Density vs Frequency
| 12 V to 3.3 V |
2.2 μH, 2.2 MHz |
After ferrite bead
filter |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-38 Output Noise Density vs Frequency
| 12 V to 3.3 V |
2.2 μH, 2.2 MHz |
After ferrite bead
filter |
| NR/SS = 470 nF, CFF = Open, 100 nF, 1 μF, BW
= 100 Hz to 100 kHz |
Figure 6-40 Output Noise Density vs Frequency
| 5 V to 1.2 V |
2.2 μH, 2.2 MHz |
After ferrite bead
filter |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-42 Output Noise Density vs Frequency
| 5 V to 3.3 V |
2.2 μH, 2.2 MHz |
After ferrite bead
filter |
| NR/SS = Open, 100 nF, 470 nF, 2.2 μF, BW = 100 Hz to
100 kHz |
Figure 6-44 Output Noise Density vs Frequency
| 12 V to 1.2 V | 2.2 μH, 1 MHz | 1 A, 2 A, 3 A |
| After Ferrite Bead Filter |
Figure 6-46 PSRR
vs Frequency
| 12 V to 1.8 V | 2.2 μH, 1 MHz | 1 A, 2 A, 3 A |
| After Ferrite Bead | |
Figure 6-48 PSRR
vs Frequency
Figure 6-50 Low-Side
RDS(ON) vs Junction Temperature
Figure 6-52 Output Voltage Error vs Load
Figure 6-54 Oscillator Frequency vs
Temperature
Figure 6-56 Shutdown Current vs
Temperature