M61316SP 데이터 시트보기 (PDF) - Renesas Electronics
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M61316SP Datasheet PDF : 27 Pages
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M61311SP/M61316SP
Tr Pulse Characteristics1 (4 VP-P)
Measure the time needed for the input pulse to rise from 10% to 90% (Tr1) and for the output pulse to rise from 10% to
90% (Tr2) with an active probe.
Pulse characteristics Tr is calculated by the equations below:
Tr = √ (Tr2)2 − (Tr1)2 (ns)
∆Tr Relative Pulse Characteristics1 (4 VP-P)
Relative characteristics ∆Tr is calculated by the equation below:
∆Tr = Tr (26) − Tr (28),
Tr (28) − Tr (30),
Tr (30) − Tr (26)
Tf Pulse Characteristics2 (4 VP-P)
Measure the time needed for the input pulse to fall from 90% to 10% (Tf1) and for the output pulse to fall from 90% to
10% (Tf2) with an active probe.
Pulse characteristics Tf is calculated by the equations below:
Tf = √ (Tf2)2 − (Tf1)2 (ns)
∆Tf Relative Pulse Characteristics2 (4 VP-P)
Relative characteristics ∆Tf is calculated by the equation below:
∆Tf = Tf (26) − Tf (28),
Tf (28) − Tf (30),
Tf (30) − Tf (26)
100%
90%
0%
Tr1 or Tr2
10%
Tf1 or Tf2
VthCP Clamp Pulse Threshold Voltage
Decrease the SG5 input level gradually from 5.0 VP-P monitoring the waveform output. Measure the top level of input
pulse when the output pedestal voltage turn decrease with unstable. And increase the SG5 input level gradually from 0
VP-P. Measure the top level of input pulse when the output pedestal voltage turn increase with stable (a point of 2.0 V).
The measured value is called VthCP.
WCP Clamp Pulse Minimum Width
Decrease the SG5 pulse width gradually from 0.5 µs, monitoring the output. Measure the SG5 pulse width when the
output pedestal voltage turn decrease with unstable. And increase the SG5 pulse width gradual from 0 µs. Measure the
SG5 pulse width when the output pedestal voltage turn increase with stable (a point of 2.0 V). The measured value is
called WCP.
REJ03F0199-0201 Rev.2.01 Mar 31, 2008
Page 12 of 26
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