Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download LV5980MCGEVB_TEST_PROCEDURE.PDF - 1137 KB
Document related concepts
Oscilloscope types wikipedia , lookup
Standing wave ratio wikipedia , lookup
Transistor–transistor logic wikipedia , lookup
Schmitt trigger wikipedia , lookup
Valve RF amplifier wikipedia , lookup
Operational amplifier wikipedia , lookup
Wilson current mirror wikipedia , lookup
Power MOSFET wikipedia , lookup
Surge protector wikipedia , lookup
Oscilloscope history wikipedia , lookup
Resistive opto-isolator wikipedia , lookup
Voltage regulator wikipedia , lookup
Tektronix analog oscilloscopes wikipedia , lookup
Automatic test equipment wikipedia , lookup
Current source wikipedia , lookup
Current mirror wikipedia , lookup
Switched-mode power supply wikipedia , lookup
Power electronics wikipedia , lookup
Transcript
Test Procedure
LV5980MC Evaluation Board
Nov/2012
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
1
Test Procedure for the LV5980MC Evaluation Board
Test Setup 1
1.
2.
3.
4.
5.
Nov/2012
Operating Current
Soft Start Waveforms
Operate & Output Waveforms
HICCUP Operating Waveforms
Load Transient Response
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
2
Test Procedure for the LV5980MC Evaluation Board
Digital Multimeter
Test Setup 1
Oscilloscope
Resistor
Current limited
DC Power Supply
Fig 1 : Test Setup 1
Suggested Equipment :
Current limited DC Power Supply (e.g. ADVANTEST R6243 DC Voltage Current Source/Monitor ) ………
Digital Multimeter {able to measure up to 30V and 3A} (e.g. ADVANTEST R6452 Digital Multimeter) ……
Electronic Load (e.g. FUJITSU ACCESS LIMITED Electric Load EUL-150αXL ) ……………………………
Oscilloscope (e.g. LeCroy WaveJet ) ……………………………………………………………………………..
Nov/2012
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
1pc
1pc
1pc
1pc
3
Test Procedure for the LV5980MC Evaluation Board
1.Operating Current
The layout is as shown in Figure 1 : Test_setup1 and supply input voltage (VIN = 24V).
Connected to the output load resistance (2.5kΩ).
Measure the current consumption, to ensure that it is within the specified value.
2.Soft Start Waveforms
The trigger of oscilloscope is set to the rising edge
and falling edge of EN voltage (VEN).
Graph 1 Soft Start Waveforms
VOUT
2V/DIV
Soft Start Time
VIN
10V/DIV
To measure the waveform of the startup when terminal EN shorted to
GND, was released.
Soft-start time to confirm whether it is within the specified value.
(Graph.1)
Nov/2012
0.5ms/DIV
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
4
Test Procedure for the LV5980MC Evaluation Board
Test Setup 2
1.
2.
3.
4.
5.
Nov/2012
Operating Current
Soft Start Waveforms
Operate & Output Waveforms
HICCUP Operating Waveforms
Load Transient Response
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
5
Test Procedure for the LV5980MC Evaluation Board
Test Setup 2
Oscilloscope
Current limited
DC Power Supply
Fig 2 : Test Setup 2
Electronic Load
Suggested Equipment :
Current limited DC Power Supply (e.g. ADVANTEST R6243 DC Voltage Current Source/Monitor ) ……… 1pc
Electronic Load (e.g. FUJITSU ACCESS LIMITED Electric Load EUL-150αXL ) …………………………… 1pc
Oscilloscope (e.g. LeCroy WaveJet ) …………………………………………………………………………….. 1pc
Nov/2012
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
6
Test Procedure for the LV5980MC Evaluation Board
3.Operate & Output Waveforms
Graph 2 Operate & Output Waveforms (1)
VOUT (AC)
20mV/DIV
The layout is as shown in Figure 1 : Test_setup1
and supply input voltage (VIN = 24V).
Output Ripple Voltage
VSW
10V/DIV
Ensure that the output ripple voltage and the switching frequency is
within the specified value raise the current value of the electronic load.
(Graph.2 & Graph.3)
5us/DIV
Graph 3 Operate & Output Waveforms (2)
VOUT (AC)
20mV/DIV
VSW
10V/DIV
4.HICCUP Operating Waveforms
(OCP) makes the over-current limiter operation further up
the current value of the electronic load.
5us/DIV
Graph 4 HICCUP Operating Waveforms
VOUT
5V/DIV
Measure the HICCUP time, to ensure that it is within the specified value.
HICCUP Time
VSW
10V/DIV
5ms/DIV
Nov/2012
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
7
Test Procedure for the LV5980MC Evaluation Board
5.Load Transient Response
The load current (IOUT) is increased by pulse (1A ⇔ 3A) using the electric load.
Setting Slew Rate = 100us
Measure the waveform of output ripple voltage (VOUT (AC)) when the load is changed. (Graph.5 ~ 7)
Ensure that the variation of the output voltage is within the specified value.
Probe to measure VOUT (AC) connect as short as possible.
Graph 5 Load Transient Response (1)
VOUT (AC)
0.1V/DIV
1ms/DIV
Graph 6 Load Transient Response (2)
Undershoot Voltage
200us/DIV
Nov/2012
Graph 7 Load Transient Response (3)
VOUT (AC)
0.1V/DIV
Overshoot Voltage
VOUT (AC)
0.1V/DIV
200us/DIV
www.BDTIC.com/ON/
SANYO Semiconductor : An ON semiconductor Company
8
![1. Higher Electricity Questions [pps 1MB]](http://s1.studyres.com/store/data/000880994_1-e0ea32a764888f59c0d1abf8ef2ca31b-150x150.png)
