NORMAL
ZENER
VOLTAGE
Vz@ Izt
TEST
CURRENT
Izt
MAXIMUM
ZENER
IMPEDANCE
Zzt @ Izt
MAXIMUM REVERSE
LEAKAGE CURRENT
Ir @ Vr=1V
MAXIMUM
ZENER
CURRENT
I
ZM
TYPICAL TEMP.
COEFFICIENT
MCC PART
NUMBER
VOLTS mA OHMS uA @25oC uA @125oCmA %/
oC
1N746A 3.3 20 28 10 30 110 -.066
1N747A 3.6 20 24 10 30 100 -.058
1N748A 3.9 20 23 10 30 95 -.046
1N749A 4.3 20 22 2 30 85 -.033
1N750A 4.7 20 19 2 30 75 -.015
1N751A 5.1 20 17 1 20 70 ±.010
1N752A 5.6 20 11 1 20 65 +.030
1N753A 6.2 20 7.0 0.1 20 60 +.049
1N754A 6.8 20 5.0 0.1 20 55 +.053
1N755A 7.5 20 6.0 0.1 20 50 +.057
1N756 A 8.2 20 8.0 0.1 20 45 +.060
1N757A 9.1 20 10 0.1 20 40 +.061
1N758A 10 20 17 0.1 20 35 +.062
1N759A 12 20 30 0.1 20 30 +.062
Note:
1) Tested with pulses t p
= 20ms
2) Valid provided that leads are kept at ambient temperature at a
distance of 8mm from case.
3) Zener impedance derived by superimposing on IZT, a 60 Hz, rms
ac current equal to 10% IZT (2 mA ac)
4) Allowance has been made for the increase in VZdue to ZZand for
the increase in junction temperature as the unit approaches
thermal equilibrium at the power dissipation of 400mW.
MCC
1N746A thru 1N759A
Revision: B 2012/08/23
TM
Micro Commercial Components
www.mccsemi.com
2 of 3
5) The part number shown with an A suffix have a 5% tolerance on
nominal zener voltage. C signifies 2%.