參數(shù)資料
型號: 3EZ39
元件分類: 參考電壓二極管
英文描述: 39 V, 3 W, SILICON, UNIDIRECTIONAL VOLTAGE REGULATOR DIODE, DO-15
封裝: ROHS COMPLIANT, PLASTIC PACKAGE-2
文件頁數(shù): 3/4頁
文件大?。?/td> 106K
代理商: 3EZ39
PAGE . 3
STAD-FEB.10.2009
1
3EZ6.8~3EZ51
APPLICATION NOTE:
Since the actual voltage available from a given zener diode is temperature dependent, it is necessary to determinejunction
temperature under any set of operating conditions in order to calculate its value. The following procedure is recommended:
Lead Temperature, T , should be determined from:
T = L P + T
L is the lead-to-ambient thermal resistance ( C/W) and Pd is the power dissipation. The value for L will vary and depends
on the device mounting method. L is generally 30-40 C/W for the various clips and tie points in common use and for printed
circuit board wiring.
The temperature of the lead can also be measured using a thermocouple placed on the lead as close as possible to the tie point.
The thermal mass connected to the tie point is normally large enough so that it will not significantly respond to heat surges
generated in the diode as a result of pulsed operation once steady-state conditions are achieved. Using the measured value of
TL, the junction temperature may be determined by:
T = T + T
T is the increase in junction temperature above the lead temperature and may be found from Figure 3 for a train of power pulses
or from Figure 10 for dc power.
T = J P
For worst-case design, using expected limits of I , limits of P and the extremes of T ( T ) may be estimated. Changes in voltage,
V , can then be found from:
V = V
T
V , the zener voltage temperature coefficient, is found from Figures 5 and 6.
Under high power-pulse operation, the zener voltage will vary with time and may also be affected significantly by the zener resistance.
For best regulation, keep current excursions as low as possible.
Data of Figure 3 should not be used to compute surge capa-bility. Surge limitations are given in Figure 2. They are lower than would
be expected by considering only junction temperature, as current crowding effects cause temperatures to be extremely high in small
spots resulting in device degradation should the limits of Figure 2 be exceeded.
A
JL
D
Z
J
Fig.1 Power Temperature Derating Curve
P
D
4
5
3
2
1
0
0
20
4 0
60
80
100
1 2 0
1 4 0
1 6 0
1 8 0
TL, Lead Temperature ( C)
P
P
RECTANGULAR
NON - REPETITIVE
T =25 C PRIOR
TOINTIAL PULSE
J
5
FIGURE 2. MAXIMUM SURGE POWER
FIGURE 3. TYPICAL THERMAL RESPONSEL,
P.W.PULSE WIDTH(ms)
0.1 0.20.3 0.5
1
2 3
5
10 2030 50
100
10
15
25
50
100
100
250
500
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