AN50 | APPLICATION NOTE |
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Guidelines for Debugging and Performance Evaluations
Debugging Your First Design Implementation
1.Note the setting of the VID pins to know what voltage is to be expected.
2.Do not connect any load to the circuit. While monitoring the output voltage, apply power to the part with current limiting at the power supply. This ensures that no cata- strophic shorts are present.
3.If proper voltage is not achieved go to "Procedures " below.
4.When you have proper voltage, increase the current lim- iting of the power supply to 16A.
5.Apply load at 1A increments. An active load (HP6060B or equivalent) is suggested.
6.In case of poor regulation refer to "Procedures" below.
Procedures
1.If there is no voltage at the output and the circuit is not drawing current look for openings in the connections, check the circuitry versus schematic, and check the power supply pins at the device to make sure that volt- age(s) are applied.
2.If there is no voltage at the output and the circuit is drawing excessive current (>100mA) with no load, check for possible shorts. Determine the path of the excessive current and which devise is drawing
3.If the output voltage comes close to the expected value, check the VID inputs at the device pins. The part is fac- tory set to correspond to the VID inputs.
4.Premature shut down can be caused by an inappropriate value of the sense resistor. See the “Sense Resistor” sec- tion.
5.Poor load regulation can be due to many causes. Check the voltages and signals at the critical pins.
6.The VREF pin should be at the voltage set by the VID pins. If the power supply pins and the VID pins are correct the VREF should have the correct voltage.
7.Next check the oscillator pin. You should see a saw tooth wave at the frequency set by the external capacitor.
8.When the VREF and CEXT pins are checked and correct and the output voltage is incorrect, look at the waveform at VCCQP. This pin should be swinging from ground to +12V (in the +12V application), and from slightly below +5V to about +10V (charge pump appli- cation). If the VCCQP pin is noisy, with ripples/over- shoots riding on it this may make the converter not to function correctly.
9.Next, look at HIDRV pin. This pin directly drives the gate of the FET. It should provide a gate drive (Vgs) of about 5V when turning the FET on. A careful study of the layout is recommended. Refer to the “PCB Layout Guidelines” section.
10.Past experience shows that the most frequent errors are incorrect components, improper connections, and poor layout.
Performance Evaluation
This section shows a sample evaluation results as a reference guide for evaluating a
Load Regulation
VID | Iload (A) | Vout (V) |
10100 | 0.5 | 3.0904 |
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| 1.0 | 3.0825 |
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| 2.0 | 3.0786 |
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| 3.0 | 3.0730 |
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| 4.0 | 3.0695 |
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| 5.0 | 3.0693 |
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| 6.0 | 3.0695 |
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| 7.0 | 3.0695 |
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| 8.0 | 3.0694 |
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| 9.0 | 3.0694 |
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| 9.9 | 3.0691 |
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Load Regulation 0.5A – 9.9A | 0.70% | |
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VID | Iload (A) | Vout (V) |
10010 | 0.5 | 3.2805 |
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| 1.0 | 3.2741 |
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| 2.0 | 3.2701 |
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| 3.0 | 3.2642 |
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| 4.0 | 3.2595 |
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| 5.0 | 3.2597 |
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| 6.0 | 3.2606 |
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| 7.0 | 3.2611 |
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| 8.0 | 3.2613 |
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| 9.0 | 3.2611 |
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| 10.0 | 3.2607 |
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| 11.0 | 3.2599 |
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| 12.0 | 3.2596 |
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| 12.4 | 3.2596 |
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Load Regulation 0.5A – 12.4A | 0.64% | |
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