400 mW DHD ZENER DIODE
(DO-34)
DESCRIPTION
NEC Type RD2.0ES to RD39ES Series are planar type diodes into DO-34
Package (Body length 2.4 mm MAX.) with DHD (Double Heatsink Diode)
construction having allowable power dissipation of 400 mW.
FEATURES
DO-34 Glass sealed package
This diode can be inserted into a PC board with a shorter pitch (5 mm)
Planar process
DHD (Double Heatsink Diode) construction
•V
Z Applied E24 standard
ORDERING INFORMATION
RD2.0ES to RD39ES with suffix "AB1", "AB2", or "AB3" should be applied
for orders for suffix "AB".
APPLICATIONS
Circuits for Constant Voltage, Constant Current, Waveform clipper, Surge absorber, etc.
ABSOLUTE MAXIMUM RATINGS (TA = 25 °C)
Forward Current IF150 mA
Power Dissipation P 400 mW to see Fig. 6
Surge Reverse Power PRSM 100 W (t = 10
µ
s) to see Fig. 10
Junction Temperature Tj175 °C
Storage Temperature Tstg –65 to +175 °C
ZENER DIODES
RD2.0ES to RD39ES
Document No. D13935EJ6V0DS00 (6th edition)
(Previous No. DC-2140)
Date Published March 1999 N CP(K)
Printed in Japan
©
1984
DATA SHEET
0.4
Cathode
indication
2.0 MAX.
25 MIN. 25 MIN.
2.4 MAX.
DO-34 (JEDEC)
Markin
g
color: Black
PACKAGE DIMENSIONS
(in millimeters)
φ
φ
5 mm
The information in this document is subject to change without notice. Before using this document, please
confirm that this is the latest version.
Not all devices/types available in every country. Please check with local NEC representative for availability
and additional information.
2
RD2.0ES to RD39ES
Data Sheet D13935EJ6V0DS00
ELECTRICAL CHARACTERISTICS (TA = 25 °C)
MIN. MAX. IZ(mA) MAX. IZ(mA) MAX. IZ(mA) MAX. VR(V)
AB 1.88 2.24
RD2.0ES AB1 1.88 2.12 5 100 5 1000 0.5 120 0.5
AB2 2.01 2.24
AB 2.11 2.44
RD2.2ES AB1 2.11 2.34 5 100 5 1000 0.5 120 0.7
AB2 2.22 2.44
AB 2.32 2.65
RD2.4ES AB1 2.32 2.54 5 100 5 1000 0.5 120 1.0
AB2 2.41 2.65
AB 2.52 2.93
RD2.7ES AB1 2.52 2.77 5 110 5 1000 0.5 100 1.0
AB2 2.68 2.93
AB 2.84 3.24
RD3.0ES AB1 2.84 3.08 5 120 5 1000 0.5 50 1.0
AB2 2.99 3.24
AB 3.15 3.54
RD3.3ES AB1 3.15 3.39 5 120 5 1000 0.5 20 1.0
AB2 3.31 3.54
AB 3.46 3.84
RD3.6ES AB1 3.46 3.69 5 120 5 1100 0.5 10 1.0
AB2 3.60 3.84
AB 3.74 4.16
RD3.9ES AB1 3.74 4.01 5 120 5 1200 0.5 5 1.0
AB2 3.89 4.16
AB 4.04 4.57
RD4.3ES AB1 4.04 4.29 5 120 5 1200 0.5 5 1.0
AB2 4.17 4.43
AB3 4.30 4.57
AB 4.44 4.93
RD4.7ES AB1 4.44 4.68 5 100 5 1200 0.5 5 1.0
AB2 4.55 4.80
AB3 4.68 4.93
AB 4.81 5.37
RD5.1ES AB1 4.81 5.07 5 70 5 1200 0.5 5 1.5
AB2 4.94 5.20
AB3 5.09 5.37
AB 5.28 5.91
RD5.6ES AB1 5.28 5.55 5 40 5 900 0.5 5 2.5
AB2 5.45 5.73
AB3 5.61 5.91
AB 5.78 6.44
RD6.2ES AB1 5.78 6.09 5 30 5 500 0.5 5 3.0
AB2 5.96 6.27
AB3 6.12 6.44
AB 6.29 7.01
RD6.8ES AB1 6.29 6.63 5 25 5 150 0.5 2 3.5
AB2 6.49 6.83
AB3 6.66 7.01
AB 6.85 7.67
RD7.5ES AB1 6.85 7.22 5 25 5 120 0.5 0.5 4.0
AB2 7.07 7.45
AB3 7.29 7.67
AB 7.53 8.45
RD8.2ES AB1 7.53 7.92 5 20 5 120 0.5 0.5 5.0
AB2 7.78 8.19
AB3 8.03 8.45
AB 8.29 9.30
RD9.1ES AB1 8.29 8.73 5 20 5 120 0.5 0.5 6.0
AB2 8.57 9.01
AB3 8.83 9.30
AB 9.12 10.39
RD10ES AB1 9.12 9.65 5 20 5 120 0.5 0.2 7.0
AB2 9.46 10.02
AB3 9.82 10.39
Type
Number Suffix Zener Voltage
VZ (V)Note 1
Dynamic Impedance
Z
Z
()
Note 2
Knee Dynamic
Impedance
ZZK ()Note 2
Reverse Current
IR (
µ
A)
3
RD2.0ES to RD39ES
Data Sheet D13935EJ6V0DS00
Type
Number Suffix Zener Voltage
VZ (V)Note 1
Dynamic Impedance
Z
Z
()
Note 2
Knee Dynamic
Impedance
ZZK ()Note 2
Reverse Current
IR (
µ
A)
MIN. MAX. IZ(mA) MAX. IZ(mA) MAX. IZ(mA) MAX. VR(V)
AB 10.18 11.38
RD11ES AB1 10.18 10.71 5 20 5 120 0.5 0.2 8.0
AB2 10.50 11.05
AB3 10.82 11.38
AB 11.13 12.35
RD12ES AB1 11.13 11.71 5 25 5 110 0.5 0.2 9.0
AB2 11.44 12.03
AB3 11.74 12.35
AB 12.11 13.66
RD13ES AB1 12.11 12.75 5 25 5 110 0.5 0.2 10
AB2 12.55 13.21
AB3 12.99 13.66
AB 13.44 15.09
RD15ES AB1 13.44 14.13 5 25 5 110 0.5 0.2 11
AB2 13.89 14.62
AB3 14.35 15.09
AB 14.80 16.51
RD16ES AB1 14.80 15.57 5 25 5 150 0.5 0.2 12
AB2 15.25 16.04
AB3 15.69 16.51
AB 16.22 18.33
RD18ES AB1 16.22 17.06 5 30 5 150 0.5 0.2 13
AB2 16.82 17.70
AB3 17.42 18.33
AB 18.14 20.45
RD20ES AB1 18.14 19.07 5 30 5 200 0.5 0.2 15
AB2 18.80 19.76
AB3 19.45 20.45
AB 20.15 22.63
AB1 20.15 21.20
RD22ES AB2 20.64 21.71 5 30 5 200 0.5 0.2 17
AB3 21.08 22.17
AB4 21.52 22.63
AB 22.05 24.85
AB1 22.05 23.18
RD24ES AB2 22.61 23.77 5 35 5 200 0.5 0.2 19
AB3 23.12 24.31
AB4 23.63 24.85
AB 24.26 27.64
AB1 24.26 25.52
RD27ES AB2 24.97 26.26 5 45 5 250 0.5 0.2 21
AB3 25.63 26.95
AB4 26.29 27.64
AB 26.99 30.51
AB1 26.99 28.39
RD30ES AB2 27.70 29.13 5 55 5 250 0.5 0.2 23
AB3 28.36 29.82
AB4 29.02 30.51
AB 29.68 33.11
AB1 29.68 31.22
RD33ES AB2 30.32 31.88 5 65 5 250 0.5 0.2 25
AB3 30.90 32.50
AB4 31.49 33.11
AB 32.14 35.77
AB1 32.14 33.79
RD36ES AB2 32.79 34.49 5 75 5 250 0.5 0.2 27
AB3 33.40 35.13
AB4 34.01 35.77
AB 34.68 38.52
AB1 34.68 36.47
RD39ES AB2 35.36 37.19 5 85 5 250 0.5 0.2 30
AB3 36.00 37.85
AB4 36.63 38.52
Notes 1. tested with pulse (40 ms)
2. ZZ and ZZK are measured at lz by given a very small A.C. current signal.
3. Suffix AB is Suffix AB1, AB2, AB3 or AB4.
4
RD2.0ES to RD39ES
Data Sheet D13935EJ6V0DS00
TYPICAL CHARACTERISTICS (TA = 25 °C)
Fig. 1 ZENER CURRENT vs.
ZENER VOLTAGE Fig. 2 ZENER CURRENT vs.
ZENER VOLTAGE
Fig. 3 ZENER CURRENT vs.
ZENER VOLTAGE
Fig. 4 ZENER CURRENT vs.
ZENER VOLTAGE
Fig. 5 ZENER CURRENT vs.
ZENER VOLTAGE
100 m
10 m
1 m
100
10
1
100 n
10 n
1 n012345
V
Z – Zener Volta
g
e – V
IZ – Zener Current – A
678910
RD2.2ES
RD2.0ES
RD2.4ES
RD2.7ES
RD3.0ES
RD3.3ES
RD3.6ES
RD3.9ES
RD8.2ES
RD7.5ES
RD5.6ES
RD5.1ES
RD4.7ES
RD4.3ES
RD6.2ES
RD6.8ES
µ
µ
µ
RD9.1ES
018202224262830
RD27ES
RD22ES RD24ES
RD30ES
100 m
10 m
1 m
100
10
1
100 n
10 n
1 n
VZ – Zener Volta
g
e – V
IZ – Zener Current – A
µ
µ
µ
025 30 35 40
RD33ES RD36ES
RD39ES
100 m
10 m
1 m
100
10
1
100 n
10 n
1 n
VZ – Zener Volta
g
e – V
IZ – Zener Current – A
µ
µ
µ
0 121314151617181920
RD15ES
RD16ES
RD18ES
RD20ES
100 m
10 m
1 m
100
10
1
100 n
10 n
1 n
VZ – Zener Voltage – V
IZ – Zener Current – A
µ
µ
µ
0 7 8 9 10 11 12 13 14 15
RD12ES
RD11ES
RD10ES RD13ES
100 m
10 m
1 m
100
10
1
100 n
10 n
1 n
VZ – Zener Voltage – V
IZ – Zener Current – A
µ
µ
µ
5
RD2.0ES to RD39ES
Data Sheet D13935EJ6V0DS00
Fig. 6 POWER DISSIPATION vs.
AMBIENT TEMPERATURE
Fig. 7 THERMAL RESISTANCE vs.
SIZE OF P.C BOARD
Fig. 8 DYNAMIC IMPEDANCE vs.
ZENER CURRENT
Fig. 9 ZENER VOLTAGE TEMPERATURE
COEFFICIENT vs. ZENER VOLTAGE
Fig. 10 SURGE REVERSE POWER RATINGS
0.08
0.06
0.04
0.02
0
–0.02
–0.04
–0.06
32
0.1 TYP. 40
24
16
8
0
–8
–16
–24
–0.08 –32
–0.1 –40
84121620
γ
Z
– V
Z
Temperature Coefficience – %/°C
γ
Z
– V
Z
Temperature Coefficience – mV/°C
24 28 32 36 40
mV/°C
RD2.0ES to RD39ES
%/°C
V
Z
– Zener Voltage – V 440
500
400
300
200
100
0 20406080100
T
A – Ambient Temperature – °C
P – Power Dissipation – mW
120 140 160 180 200
= 5 mm
= 10 mm
7 mm P.C. Board
t = 0.035 mm
= 5 mm
= 10 mm
= 3 mm
φ
= 3 mm
3 mm P.C. Board
t = 0.035 mm
φ
500
400
300
200
100
02040
S – Size of P.C. Board – mm2
Rth – Thermal Resistance – °C/W
60 80 100
= 10 mm
= 5mm
= 3mm
S
Junction to ambient
1000
100
10
TYP.
1
0.01 0.1
IZ – Zener Current – mA
ZZ – Dynamic Impedance –
101 100
RD3.3ES
RD15ES
RD39ES
RD20ES
RD5.6ES
RD10ES
RD7.5ES
RD5.1ES
RD2.0ES
RD3.9ES
RD4.7ES
1000 TA=25°C
Non-Repetitive
tT
P
RSM
100
10
11 10 100 m
µµ
100 1 m 10 m
µ
tT – Pulse Width – s
PRSM – Surge Reverse Power – W
6
RD2.0ES to RD39ES
Data Sheet D13935EJ6V0DS00
Fig. 11 TRANSIENT THERMAL IMPEDANCE CHARACTERISTIC
1000
100
10
11 m 10 m 100 m 100110
t – Time – s
Zth – Transient Thermal Impedance – °C/W
375°C/W
7
RD2.0ES to RD39ES
Data Sheet D13935EJ6V0DS00
[MEMO]
2
RD2.0ES to RD39ES
[MEMO]
The information in this document is subject to change without notice. Before using this document, please
confirm that this is the latest version.
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consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in
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M7 98.8