ZMM1V0 THRU ZMM75
Silicon Epitaxial Planar Zener Diodes
LL-34
in MiniMELF case especially for automatic insertion.
The Zener voltages are graded according to the
international E24 standard. Smaller voltage tolerances
and higher Zener voltages are upon request.
Absolute Maximum Ratings (Ta = 25 OC)
Parameter
Power Dissipation
Junction Temperature
Storage Temperature Range
1)
Value
Unit
Ptot
500 1)
mW
Tj
175
O
Tstg
- 55 to + 175
O
Symbol
Max.
C
C
Valid provided that electrodes are kept at ambient temperature
Characteristics at Ta = 25 OC
Parameter
Thermal Resistance Junction to Ambient Air
Forward Voltage
at IF = 100 mA
1)
Symbol
RthA
VF
0.3
1
1)
Unit
K/mW
V
Valid provided that electrodes are kept at ambient temperature
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PAGE 1
ZMM1V0 THRU ZMM75
Characteristics at Ta = 25 OC
Zener Voltage Range
Type
ZMM1V0
VZnom
1)
Dynamic Resistance
Reverse Leakage Current
o
Temp. Coefficient
of Zener Voltage
VZT
at lZT
ZZT
ZZK
at IZK
Ta = 25 OC
Ta = 125 C
at VR
(V)
(V)
(mA)
Max. (Ω)
Max. (Ω)
(mA)
Max. (µA)
Max. (µA)
(V)
TKvz (%/K)
0.75
0.7...0.8
5
8
50
1
-
-
-
-0.26...-0.23
ZMM2V0
2
1.8...2.15
5
85
600
1
100
200
1
-0.09...-0.06
ZMM2V2
2.2
2.08...2.33
5
85
600
1
75
160
1
-0.09...-0.06
ZMM2V4
2.4
2.28...2.56
5
85
600
1
50
100
1
-0.09...-0.06
ZMM2V7
2.7
2.5...2.9
5
85
600
1
10
50
1
-0.09...-0.06
ZMM3V0
3
2.8...3.2
5
85
600
1
4
40
1
-0.08...-0.05
ZMM3V3
3.3
3.1...3.5
5
85
600
1
2
40
1
-0.08...-0.05
ZMM3V6
3.6
3.4...3.8
5
85
600
1
2
40
1
-0.08...-0.05
ZMM3V9
3.9
3.7...4.1
5
85
600
1
2
40
1
-0.08...-0.05
ZMM4V3
4.3
4...4.6
5
75
600
1
1
20
1
-0.06...-0.03
ZMM4V7
4.7
4.4...5
5
60
600
1
0.5
10
1
-0.05...+0.02
ZMM5V1
5.1
4.8...5.4
5
35
550
1
0.1
2
1
-0.02...+0.02
ZMM5V6
5.6
5.2...6
5
25
450
1
0.1
2
1
-0.05...+0.05
ZMM6V2
6.2
5.8...6.6
5
10
200
1
0.1
2
2
0.03...0.06
ZMM6V8
6.8
6.4...7.2
5
8
150
1
0.1
2
3
0.03...0.07
ZMM7V5
7.5
7...7.9
5
7
50
1
0.1
2
5
0.03...0.07
ZMM8V2
8.2
7.7...8.7
5
7
50
1
0.1
2
6.2
0.03...0.08
ZMM9V1
9.1
8.5...9.6
5
10
50
1
0.1
2
6.8
0.03...0.09
ZMM10
10
9.4...10.6
5
15
70
1
0.1
2
7.5
0.03...0.1
ZMM11
11
10.4...11.6
5
20
70
1
0.1
2
8.2
0.03...0.11
ZMM12
12
11.4...12.7
5
20
90
1
0.1
2
9.1
0.03...0.11
ZMM13
13
12.4...14.1
5
26
110
1
0.1
2
10
0.03...0.11
ZMM15
15
13.8...15.6
5
30
110
1
0.1
2
11
0.03...0.11
ZMM16
16
15.3...17.1
5
40
170
1
0.1
2
12
0.03...0.11
ZMM18
18
16.8...19.1
5
50
170
1
0.1
2
13
0.03...0.11
ZMM20
20
18.8...21.2
5
55
220
1
0.1
2
15
0.03...0.11
ZMM22
22
20.8...23.3
5
55
220
1
0.1
2
16
0.04...0.12
ZMM24
24
22.8...25.6
5
80
220
1
0.1
2
18
0.04...0.12
ZMM27
27
25.1...28.9
5
80
220
1
0.1
2
20
0.04...0.12
ZMM30
30
28...32
5
80
220
1
0.1
2
22
0.04...0.12
ZMM33
33
31...35
5
80
220
1
0.1
2
24
0.04...0.12
ZMM36
36
34...38
5
80
220
1
0.1
2
27
0.04...0.12
ZMM39
39
37...41
2.5
90
500
0.5
0.1
5
30
0.04...0.12
ZMM43
43
40...46
2.5
90
500
0.5
0.1
5
33
0.04...0.12
ZMM47
47
44...50
2.5
110
600
0.5
0.1
5
36
0.04...0.12
ZMM51
51
48...54
2.5
125
700
0.5
0.1
10
39
0.04...0.12
ZMM56
56
52...60
2.5
135
700
0.5
0.1
10
43
0.04...0.12
ZMM62
62
58...66
2.5
150
1000
0.5
0.1
10
47
0.04...0.12
ZMM68
68
64...72
2.5
200
1000
0.5
0.1
10
51
0.04...0.12
ZMM75
75
70...79
2.5
250
1000
0.5
0.1
10
56
0.04...0.12
1)
Tested with pulses tp = 20 ms.
2)
The ZMM1 is a silicon diode with operation in forward direction. Hence, the index of all parameters should be "F" instead of "Z". Connect the cathode
electrode to the negative pole.
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PAGE 2
ZMM1V0 THRU ZMM75
Breakdown characteristics
Tj = constant (pulsed)
mA
50
ZMM...
Tj=25o C
ZMM 2.7
ZMM 1
Iz
ZMM 3.9
ZMM 3.3
ZMM 6.8
ZMM 4.7
40
ZMM 8.2
ZMM 5.6
30
20
Test current Iz
5mA
10
0
0
1
2
3
4
5
7
6
8
10 V
9
Vz
Breakdown characteristics
Tj = constant (pulsed)
ZMM...
mA
30
Tj=25o C
ZMM 10
ZMM 12
Iz
ZMM 15
20
ZMM 18
ZMM 22
ZMM 27
Test current Iz
5mA
10
ZMM 33
ZMM 36
0
0
10
20
30
40 V
Vz
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PAGE 3
ZMM1V0 THRU ZMM75
Breakdown characteristics
Tj = constant (pulsed)
mA
10
Iz
ZMM...
Tj=25o C
ZMM 39
ZMM 51
ZMM 43
ZMM 47
8
Test current Iz
5mA
6
4
2
0
0
10
20
30
40
50
60
70
80
90
100 V
Vz
Admissible power dissipation
versus ambient temperature
Forward characteristics
Valid provided that electrodes are kept
at ambient temperature.
mA
10
ZMM...
mW
500
ZMM...
3
10 2
iF
P tot
400
10
o
Tj=100 C
1
300
o
Tj=25 C
10
10
10
-1
200
-2
-3
100
10
-4
10 -5
0
0
0.2
0.4
0.6
0.8
VF
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1V
0
200o C
100
Tamb
PAGE 4
ZMM1V0 THRU ZMM75
Pulse thermal resistance
versus pulse duration
Dynamic resistance
versus Zener current
Valid provided that the electrodes are kept
at ambient temperature.
K/W
10
ZMM...
3
ZMM...
1000
o
Tj =25 C
7
5
5
4
r thA
4
r zj
3
3
2
2
10
0.5
2
7
100
0.2
5
5
4
4
0.1
3
3
0.05
2
2
0.02
10
0.01
10
2.7
ZMM1
V=0
7
3.6
4.7
5
5
4
4
tp
tp
3
V=
3
PI
T
5.1
2
2
T
10 -5 10 -4
10
-3
10
-2
10
tp
ZMM5.6
1
1
-1
0.1
10 S
1
2
5
1
2
5
10
2
100mA
5
Iz
Dynamic resistance
versus Zener current
Capacitance versus
Zener voltage
ZMM...
pF
1000
100
ZMM...
o
Tj =25 C
o
Tj =25 C
7
5
r zj
5
Ctot
4
3
4
33
VR =1V
3
2
27
22
VR =2V
2
10
18
100
7
15
5
4
VR =1V
5
12
VR =2V
3
4
10
3
2
6.8/8.2
2
ZMM6.2
1
0.1
10
1
2
3
4 5
10
2
3
4 5
Vz at Iz=5 mA
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2
5
1
2
5
10
2
5
100mA
100V
Iz
PAGE 5
ZMM1V0 THRU ZMM75
Thermal differential resistance
versus Zener voltage
Dynamic resistance
versus Zener current
10
Valid provided that electrodes are kept
at ambient temperature
ZMM...
3
10
o
Tj =25 C
ZMM...
3
r zth =RthA.Vz.
7
5
4
5
Vz
Tj
3
4
r zj
2
3
10
2
10
2
r zth
5
4
2
3
2
7
47+51
43
39
5
10
4
ZMM36
5
4
3
3
negative
2
positive
2
10
1
2
0.1
3
4 5
2
1
3
4 5
10mA
2
1
3
4 5
2
10
Iz
3
4 5
100V
Vz at Iz=5 mA
Dynamic resistance
versus Zener voltage
Temperature dependence of Zener voltage
versus Zener voltage
mV/K
25
ZMM...
100
ZMM...
7
5
r zj
Vz
Tj
4
20
5mA
Iz=1mA
20mA
3
15
2
10
10
7
5
5
4
3
0
2
o
Tj =25 C
Iz=5 mA
1
1
2
3
4 5
10
2
3
4 5
100V
Vz at Iz=5 mA
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-5
1
2
3
4 5
10
2
3
4 5
100V
Vz at Iz=5 mA
PAGE 6
ZMM1V0 THRU ZMM75
Temperature dependence of Zener voltage
versus Zener voltage
mV/K
Change of Zener voltage
versus junction temperature
V
ZMM...
ZMM...
9
100
Iz=5 mA
8
Vz bei Iz=5mA
7
80
Vz
Tj
51V
Vz
6
43V
5
60
36V
4
3
40
2
1
20
0
Iz=5 mA
-1
0
0
20
60
40
80
0
100V
20
40
60
80
100
Vz at Iz=5 mA
Tj
Change of Zener voltge from turn-on
up to the point of thermal equilibrium
versus Zener voltage
Change of Zener voltage
versus junction temperature
V
ZMM...
V
1.6
0.8
X)
25
Vz=35 V
0.7
o
140 C
120
15
1.4
10
0.6
ZMM...
Vz=rzth .Iz
Iz=5 mA
1.2
Vz
Vz
0.5
1
8
0.4
0.8
7
0.3
6.2
0.2
5.9
0.1
0
5.1
-0.1
X)
at Iz=5 mA
-0.2
0
20
40
60
80
1
-0.2
4.7
3.6
100
120
0.4
0.2
5.6
0
0.6
o
140 C
-0.4
1
2
3
4 5
10
2
3
4 5
100V
Tj
Vz at Iz=5 mA
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PAGE 7
ZMM1V0 THRU ZMM75
Change of Zener voltge from turn-on
up to the point of thermal equilibrium
versus Zener voltage
V
ZMM...
5
Vz=rzth .Iz
4
Vz
3
Iz=5 mA
2
1
Iz=2 mA
0
0
20
40
60
80
100V
Vz at Iz=5 mA
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PAGE 8
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