PolyZen Devices
Polymer Protected Zener Diode
PolyZen devices are polymer-enhanced, precision Zener
diodes. They offer resettable protection against multi-Watt
fault events without the need for multi-Watt heat sinks.
The Zener diode used for voltage clamping a PolyZen
device was selected due to its relatively flat voltage
vs. current response. This helps improve output voltage
clamping, even when input voltage is high and diode
currents are large.
An advanced feature of the PolyZen device is that the
Zener diode is thermally coupled to a resistively nonlinear, PPTC (polymer positive temperature coefficient)
layer. This PPTC layer is fully integrated into the device
and is electrically in series between VIN and the diode
clamped VOUT.
This advanced PPTC layer responds to either extended
diode heating or overcurrent events by transitioning from a low to high resistance state, also known as “tripping.” A
tripped PPTC will limit current and generate voltage drop. It helps to protect both the Zener diode and the follow-on
electronics and effectively increases the diode’s power handling capability.
The polymer-enhanced Zener diode helps protect sensitive portable electronics from damage caused by inductive
voltage spikes, voltage transients, incorrect power supplies and reverse bias. These devices are particularly suitable for
portable electronics and other low-power DC devices.
BENEFITS
• Stable Zener diode helps shield downstream
electronics from overvoltage and reverse bias
• Trip events shut out overvoltage and reverse bias
sources
• Analog nature of trip events helps minimize damage
from upstream inductive spikes
• Minimal power dissipation requirements
APPLICATIONS
• DC power port protection in portable electronics
• DC power port protection for systems using barrel
jacks for power input
• Internal overvoltage and transient suppression
• DC output voltage regulation
• Tablet PCs and portable electronics
• Single component placement
FEATURES
• Overvoltage transient suppression
• Multi-Watt power handling capability
• Stable VZ vs. fault current
• Integrated device construction
• Time delayed, overvoltage trip
• RoHS compliant
• Time delayed, reverse bias trip
• Halogen free
(refers to: Br900ppm, Cl900ppm, Br+Cl1500ppm)
RoHS Compliant, ELV Compliant
TE Connectivity /// Circuit protection product catalog
27
4
PolyZen Devices
Polymer Protected Zener Diode
Figure PZ1 — Typical Application Block Diagram
Power Supply
Protected Electronics
(External or Internal)
VIN
+
2
PolyZen
Device
1
3
GND
VOUT
RLOAD
Regulated
Output
Protected Downstream
Electronics
Table PZ1 — Electrical Characteristics
(Performance ratings @ 25°C unless otherwise specified)
VZ(V)
VINT MAX
IZt
Part Number
NEW
NEW
NEW
NEW
NEW
NEW
NEW
NEW
NEW
NEW
ZEN056V130A24LS
ZEN059V130A24LS†
ZEN065V130A24LS
ZEN098V130A24LS
ZEN132V130A24LS
ZEN164V130A24LS
ZEN056V230A16LS
ZEN065V230A16LS
ZEN098V230A16LS
ZEN132V230A16LS
ZEN056V075A48LS
ZEN132V075A48LS
ZEN056V115A24LS
ZEN056V130A16YM
ZEN056V175A12YM
ZEN132V130A16YM
ZEN132V175A12YM
ZEN056V130A24YC
ZEN056V230A16YC
ZEN056V260A16YC
ZEN132V130A24YC
ZEN132V230A16YC
ZEN132V260A16YC
IHOLD
@ 20°C
RTyp
IFLT MAX
R1MAX
VINT MAX
Test
Current
Test
Voltage
IFLT MAX
Min
Typ
Max
(A)
(A)
(Ω)
(Ω)
(V)
(A)
(A)
(V)
5.45
5.80
6.35
9.60
13.20
16.10
5.45
6.35
9.60
13.20
5.45
13.20
5.45
5.35
5.35
13.20
13.20
5.35
5.35
5.35
13.20
13.20
13.20
5.60
5.90
6.50
9.80
13.40
16.40
5.60
6.50
9.80
13.40
5.60
13.40
5.60
5.60
5.60
13.40
13.40
5.60
5.60
5.60
13.40
13.40
13.40
5.75
6.00
6.65
10.00
13.60
16.60
5.75
6.65
10.00
13.60
5.75
13.60
5.75
5.85
5.85
13.80
13.80
5.85
5.85
5.85
13.80
13.80
13.80
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
1.30
1.30
1.30
1.30
1.30
1.30
2.30
2.30
2.30
2.30
0.75
0.75
1.15
1.30
1.75
1.30
1.75
1.30
2.30
2.60
1.30
2.30
2.60
0.12
0.12
0.12
0.12
0.12
0.12
0.04
0.04
0.04
0.04
0.28
0.28
0.15
0.110
0.050
0.110
0.050
0.110
0.040
0.040
0.110
0.040
0.040
0.16
0.15
0.16
0.16
0.16
0.16
0.06
0.06
0.06
0.06
0.45
0.45
0.18
0.160
0.095
0.160
0.095
0.170
0.070
0.055
0.170
0.070
0.055
24
24
24
24
24
24
16
16
16
16
48
48
24
14
12
14
12
24
16
16
24
16
16
3
3
3
3
3
3
5
5
5
5
3
3
3
3
4
3
4
3
5
5
3
5
5
+10/-40
+6/-40
+6/-40
+3.5/-40
+2/-40
+1.25/-40
+5/-40
+3.5/-40
+3.5/-40
+2/-40
+10/-40
+2/-40
+10/-40
+3/-40
+3/-40
+1/-40
+1/-40
+4/-40
+3/-40
+3/-40
+1/-40
+1/-40
+1/-40
+24/-16
+24/-16
+24/-16
+24/-16
+24/-16
+24/-16
+16/-12
+16/-12
+16/-12
+20/-12
+48/-16
+48/-16
+24/-16
+16/-12
+12/-12
+20/-12
+20/-12
+24/-16
+16/-12
+16/-12
+24/-16
+20/-12
+20/-12
LS module height is 1.7mm typical. YM module height is 1.2mm typical. YC module height is 1.3mm typical.
† Typical operating current is 500μA @ 5.0V which meets USB suspend mode requirement.
Table PZ2 — Definition of Terms
VZ
IZT
IHOLD
RTyp
R1MAX
IFLT
IFLT MAX
VINT MAX
IPTC
IOUT
Trip Event
28
Zener clamping voltage measured at current IZT and 20°C.
Test current at which VZ is measured.
Maximum steady state current IPTC that will not generate a trip event at the specified temperature.
Ratings assume IFLT = 0A.
Typical resistance between VIN and VOUT pins when the device is at room temperature.
The maximum resistance between VIN and VOUT pins, at room temperature, one hour after first trip or
after reflow soldering.
Current flowing through the Zener diode.
Maximum RMS fault current the Zener diode component of the device can withstand and remain resettable;
testing is conducted at rated voltage with no load connected to VOUT.
The voltage (VIN - VOUT “post trip”) at which typical qualification devices (98% devices, 95% confidence) survived
at least 100 trip cycles and 24 hours trip endurance when “tripped” at the specified voltage and current (IPTC).
Current flowing through the PPTC portion of the circuit.
Current flowing out the VOUT pin of the device.
A condition where the PPTC transitions to a high resistance state, thereby limiting IPTC, and significantly
increasing the voltage drop between VIN and VOUT.
TE Connectivity /// Circuit protection product catalog
Polymer PTC
VIN
VOUT
Zener
Diode
GND
IPTC
IOUT
VIN
VOUT
IFLT
GND
RoHS Compliant, ELV Compliant
4
PolyZen Devices
Polymer Protected Zener Diode
Figures PZ2-PZ9 — Typical Performance Curves for PolyZen Devices - LS Series
22.0
22.0
22.0
22.0
20.0
20.0
20.0
20.0
18.0
18.0
18.0
18.0
16.0
16.0
16.0
16.0
14.0
14.0
14.0
14.0
12.0
12.0
12.0
12.0
10.0
10.0
10.0
10.0
8.0
8.0
8.0
8.0
6.0
6.0
6.0
6.0
4.0
4.0
4.0
4.0
2.0
2.0
2.0
2.0
00
0000
00
Figure PZ3
VVOUT
Peakvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUTPeak
OUT==0)
VVOUT
Peakvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUTPeak
OUT==0)
AA==ZEN056V1yyA24LS
ZEN056V1yyA24LS
AA
==ZEN059V130A24LS
ZEN056V1yyA24LS
ZEN056V1yyA24LS
B
B=
ZEN059V130A24LS
BB
==ZEN065V130A24LS
ZEN059V130A24LS
ZEN059V130A24LS
C
C=
ZEN065V130A24LS
CC
==ZEN098V130A24LS
ZEN065V130A24LS
ZEN065V130A24LS
D
D=
ZEN098V130A24LS
DD
==ZEN132V130A24LS
ZEN098V130A24LS
ZEN098V130A24LS
E
E=
ZEN132V130A24LS
EE
==ZEN164V130A24LS
ZEN132V130A24LS
ZEN132V130A24LS
F
F=
ZEN164V130A24LS
FF ==ZEN164V130A24LS
ZEN164V130A24LS
FF
FF
EE
EE
DD
DD
CC
CC
11
11
22
22
33
33
44
44
55
55
66
66
AA
AA
BB
BB
77
77
IFLT
IFLTRMS
RMS(A)
(A)
IFLT
IFLTRMS
RMS(A)
(A)
88
88
99
99
11
11
AA
AA
22
33
44
55
66
77
88
22 VV 33Peak
44 vs.I I 55 RMS
66
77 0) 88
IFLT
IFLTRMS
RMS
(A)
(A) (I(I
OUT
FLT
OUT
OUT Peakvs.
FLT RMS
OUT==0)
99
99
11
11
22
22
33
33
44
44
BB==ZENxxxV230A16LS
ZENxxxV230A16LS
CC==ZENxxxV075A48LS
ZENxxxV075A48LS
-0.4
-0.4
-0.8
-0.8
-0.6
-0.6
AA
BB
CC
-40
-40
-30
-30
AA
-20
-20
-10
-10
-40
-40
-30
-30
-20
-20
00
-10
-10
0.1
0.1
0.1
0.1
DD
DD
11
11
BB
CB
CB
CC
AA
AA
22
33
44
55
66
77
88
2Time-to-Trip
33
44 vs.
5I5 RMS
66 (I(I 77 ==0)
2Time-to-Trip
IFLT
vs.
RMS
0)88
IFLT
IFLT
RMS
RMS
(A)
OUT
FLT(A)
OUT
99
99
10
10
10
10
AA==ZENxxxV1yyA24LS
ZENxxxV1yyA24LS
CC==ZENxxxV075A48LS
ZENxxxV075A48LS
AA==ZENxxxV1yyA24LS
ZENxxxV1yyA24LS
BB==ZENxxxV230A16LS
ZENxxxV230A16LS
11
1010
CC==ZENxxxV075A48LS
ZENxxxV075A48LS
0.1
0.1
11
BB
0.01
0.01
0.1
0.1
AA
CC
BB
-40
-40
-30
-30
AA
CC
-20
-20
-10
-10
00
-10
-10
00
IFLT
IFLTRMS
RMS(A)
(A)
-40
-40
-30
-30
-20
-20
IFLT
IFLTRMS
RMS(A)
(A)
Figure PZ9
Time-to-Trip
Time-to-Tripvs.
vs.IPTC
IPTCRMS
RMS(I(IFLT
0)
FLT==0)
AA==ZENxxxV130A24LS
ZENxxxV130A24LS
AA==ZENxxxV1yyA24LS
ZENxxxV1yyA24LS
Temperature
TemperatureEffect
Effecton
onIHOLD
IHOLD
(I(IFLT
0)
FLT==0)
BB==ZENxxxV230A16LS
ZENxxxV230A16LS
BB
BB
ZENxxxV075A48LS
CC==ZENxxxV075A48LS
ZENxxxV115A24LS
DD==ZENxxxV115A24LS
DD
AA
CC
DD
CC
-20
-20
00
2020
4040
6060
8080
CC==ZENxxxV075A48LS
ZENxxxV075A48LS
ZENxxxV1yyA24LS
AA==ZENxxxV1yyA24LS
10110
1
Time-to-Trip
(s)
Time-to-Trip
(s)
Time-to-Trip
(s)
Time-to-Trip
(s)
AA
Time-to-Trip
Time-to-Tripvs.
vs.IPTC
IPTCRMS
RMS
(I(IFLT
==0)0)
FLT
BB==
ZENxxxV230A16LS
ZENxxxV230A16LS
CC==ZENxxxV075A48LS
ZENxxxV075A48LS
ZENxxxV130A24LS
A
DA
==
ZENxxxV115A24LS
D=
=ZENxxxV130A24LS
ZENxxxV115A24LS
ZENxxxV230A16LS
BB==ZENxxxV230A16LS
3.5
3.5
2.5
2.5
IHOLD (A) IHOLD (A)
IHOLD (A) IHOLD (A)
10
10
10
10
1010
3.0
3.0
0.0
0.0
-40
-40
99
99
Time-to-Trip
Time-to-Tripvs.
vs.IFLT
IFLTRMS
RMS
(I(IOUT
0)
BB==ZENxxxV230A16LS
ZENxxxV230A16LS
OUT==0)
0.001
0.001
-50
-50
00
Temperature
TemperatureEffect
Effecton
onIHOLD
IHOLD(I(IFLT
0)
FLT==0)
3.5
3.5
1.0
1.0
0.0
0.0
-40
-40
0.5
0.5
88
88
IFLT
IFLTRMS
RMS(A)
(A)
0.001
0.001
0.01
0.01-50
-50
IFLT
IFLTRMS
RMS(A)
(A)
CC
BB
Figure PZ8
1.5
1.5
0.5
0.5
77
77
AA
AA
11
11
IFLT
IFLTRMS
RMS(A)
(A)
2.0
2.0
1.0
1.0
66
66
BB
BB
AA==ZEN056V230A16LS
ZEN056V230A16LS
AA
==ZEN065V230A16LS
ZEN056V230A16LS
ZEN056V230A16LS
B
B=
ZEN065V230A16LS
B
=
ZEN065V230A16LS
B
=
ZEN065V230A16LS
CC= ZEN098V230A16LS
ZEN098V230A16LS
C
=
ZEN098V230A16LS
C
=
ZEN098V230A16LS
DD= ZEN132V230A16LS
ZEN132V230A16LS
DD==ZEN132V230A16LS
ZEN132V230A16LS
1010
100
100
CC==ZENxxxV075A48LS
ZENxxxV075A48LS
AA==ZENxxxV1yyA24LS
ZENxxxV1yyA24LS
-0.6
-0.6
2.5
2.5
1.5
1.5
55
55
IFLT
IFLTRMS
RMS(A)
(A)
IFLT
IFLTRMS
RMS(A)
(A)
100
100
VVOUT
Peakvs.
vs.IFLT
IFLTRMS
RMS(I
==0)0)
B(I
=OUT
B
=ZENxxxV230A16LS
ZENxxxV230A16LS
OUTPeak
OUT
-0.2
-0.2
3.0
3.0
2.0
2.0
CC
CC
DD
DD
Time-to-Trip
Time-to-Tripvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUT==0)
Time-to-Trip
Time-to-Tripvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUT==0)
Figure PZ7
AA==ZENxxxV1yyA24LS
ZENxxxV1yyA24LS
-0.4
-0.4
-1.2
-1.2
-50
-50
EE
EE
10
10
10
10
0.01
0.01
0.01
0.0100
00
10
10
10
10
IFLT
IFLTRMS
RMS(A)
(A)
0.0
0.0
VOUT PeakVOUT
(V) Peak (V)
VOUT Peak
(V) Peak (V)
VOUT
Time-to-Trip
Time-to-Trip
(s)(s)
Time-to-Trip
Time-to-Trip
(s)
(s)
BB
BB
Time-to-Trip
(s)
Time-to-Trip
(s)
Time-to-Trip
(s)
Time-to-Trip
(s)
V
Peak
VOUT
Peak
(V)(V)
V
VOUT
Peak
Peak
(V)
(V)
OUT
OUT
CC
CC
-0.2
-0.2
-1.2
-1.2
-50
-50
-1.0
-1.0
FF
FF
100
100
100
100
ZEN056V230A16LS
AA==ZEN056V230A16LS
AA
==ZEN065V230A16LS
ZEN056V230A16LS
ZEN056V230A16LS
B=
ZEN065V230A16LS
B
B
=
ZEN065V230A16LS
B
=
ZEN065V230A16LS
ZEN098V230A16LS
CC= ZEN098V230A16LS
C
=
ZEN098V230A16LS
C
=
ZEN098V230A16LS
ZEN132V230A16LS
DD= ZEN132V230A16LS
DD==ZEN132V230A16LS
ZEN132V230A16LS
DD
DD
0.0
0.0
-0.8
-0.8
0.1
0.1
0.1
0.1
Figure PZ5
VVOUT
Peakvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUTPeak
OUT==0)
VVOUT
Peakvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUTPeak
OUT==0)
Figure PZ6
-1.0
-1.0
AA==ZEN056V1yyA24LS
ZEN056V1yyA24LS
AA
==ZEN059V130A24LS
ZEN056V1yyA24LS
ZEN056V1yyA24LS
B
B=
ZEN059V130A24LS
BB
==ZEN065V130A24LS
ZEN059V130A24LS
ZEN059V130A24LS
C
C=
ZEN065V130A24LS
CC
==ZEN098V130A24LS
ZEN065V130A24LS
ZEN065V130A24LS
D
D=
ZEN098V130A24LS
DD
==ZEN132V130A24LS
ZEN098V130A24LS
ZEN098V130A24LS
E
E=
ZEN132V130A24LS
EE
==ZEN164V130A24LS
ZEN132V130A24LS
ZEN132V130A24LS
F
F=
ZEN164V130A24LS
FF ==ZEN164V130A24LS
ZEN164V130A24LS
11
11
0.01
0.01
0.01
0.0100
00
10
10
10
10
Figure PZ4
22.0
22.0
22.0
22.0
20.0
20.0
20.0
20.0
18.0
18.0
18.0
18.0
16.0
16.0
16.0
16.0
14.0
14.0
14.0
14.0
12.0
12.0
12.0
12.0
10.0
10.0
10.0
10.0
8.0
8.0
8.0
8.0
6.0
6.0
6.0
6.0
4.0
4.0
4.0
4.0
2.0
2.0
2.0
2.0
00
0000
00
Time-to-Trip
Time-to-Tripvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUT==0)
Time-to-Trip
Time-to-Tripvs.
vs.IFLT
IFLTRMS
RMS(I(IOUT
0)
OUT==0)
10
10
10
10
Time-to-Trip
Time-to-Trip
(s)(s)
Time-to-Trip
Time-to-Trip
(s)
(s)
V
Peak
VOUT
Peak
(V)(V)
V
VOUT
Peak
Peak
(V)
(V)
OUT
OUT
Figure PZ2
100
100
ZENxxxV230A16LS
BB==ZENxxxV230A16LS
ZENxxxV075A48LS
CC==ZENxxxV075A48LS
11
0.1
0.1
0.1
0.1
0.01
0.01
0.01
0.01
0.001
0.001
00
BB
CC
55
1010
1515
Ambient
AmbientTemperature
Temperature(˚C)
(˚C)
-20
-20
00
2020
4040
6060
Ambient
AmbientTemperature
Temperature(˚C)
(˚C)
RoHS Compliant, ELV Compliant
2020
2525
3030
IPTC
IPTCRMS
RMS(A)
(A)
8080
100
100
0.001
0.001
00
55
1010
1515
2020
2525
IPTC
IPTCRMS
RMS(A)
(A)
3535
CC
3030
3535
AA
BB
4040
4545
AA
4040
TE Connectivity /// Circuit protection product catalog
4545
29
4
PolyZen Devices
Polymer Protected Zener Diode
Figures PZ10-PZ15 — Typical Performance Curves for PolyZen Devices - YM Series
VOUT Peak vs. IFLT RMS (IOUT = 0)
VOUT Peak vs. IFLT RMS (IOUT = 0)
18.0
16.0
VOUT
VOUT
Peak
Peak
(V) (V)
16.0
14.0
B
C
B
C
A
B
A
C
B
14.0
12.0
= ZEN056V1yyAzzYM
=
= ZEN132V130A16YM
ZEN056V1yyAzzYM
=
= ZEN132V175A12YM
ZEN132V130A16YM
10
12.0
10.0
10.0
8.0
A
6.0
4.0
A
0.0
10
0
1
2
3
0
1
2
3
4
IFLT
4
RMS
(A)
5
6
7
8
5
6
7
8
D = ZEN132V175A12YM
1
B
0.1
0.0
-0.2
D
0.01
0.01
0.0
0.5
1.0
1.5
0.0
0.5
1.0
1.5
2.0
10
B
-0.8
-1.0
A
A
-1.0
-1.2
-1.2
-1.4
-1.4
-1.6
-1.6
-1.8
10
-1.8
-2.0
-40
-30
-20
-10
0
-40
-30
-20 (A)
IFLT RMS
-10
0
IFLT RMS (A)
3.0
3.5
4.0
C
C
0.1
B
A
0.01
A
0.001
-40
-30
-20
-10
0
-40
-30
-20 (A)
IFLT RMS
-10
0
IFLT RMS (A)
Time-to-Trip vs. IPTC RMS (IFLT = 0)
100
B
A = ZENxxxV130A16YM
B = ZENxxxV175A12YM
Temperature Effect on IHOLD
(IFLT = 0)
10
Time-to-TripTime-to-Trip
(s)
(s)
3
2
A = ZENxxxV130A16YM
B = ZENxxxV175A12YM
2.5
1.5
2
1
A
B
1.5
0.5
A
1
0
-40
-20
0
0.5
20
40
60
80
B
100
A = ZENxxxV130A16YM
B =(I
ZENxxxV175A12YM
Time-to-Trip vs. IPTC RMS
FLT = 0)
A
100
B
1
10
A = ZENxxxV130A16YM
B = ZENxxxV175A12YM
A
0.1
1
0.01
0.1
0.001
0.01
0
10
20
30
40
30
40
IPTC RMS (A)
Ambient Temperature (°C)
0.001
0
-40
-20
0
20
40
60
VOUT Peak vs. IFLT RMS (IOUT = 0)
80
0
100
10
20
Time-to-TripI vs.RMS
IFLT (A)
RMS (IOUT = 0)
Temperature (°C)
Figures
PZ16-PZ21Ambient
— Typical
Performance Curves for
PolyZen
Devices
- YC Series
18.0
100
B
16.0
Figure PZ16
C
PTC
A = ZEN056VyyyAzzYC
Figure PZ17
ZEN132V130A24YC
VOUT Peak vs. IFLT RMSB (I=OUT
= 0)
C = ZEN132V2yyA16YC
18.0
12.0
B
16.0
10.0
Time-to-TripTime-to-Trip
(s)
(s)
VOUT Peak (V)
VOUT Peak (V)
14.0
A = ZEN056VyyyAzzYC
B = ZEN132V130A24YC
C = ZEN132V2yyA16YC
C
14.0
8.0
A
12.0
6.0
10.0
4.0
8.0
2.0
A
6.0
0.0
4.0 0
1
2
3
0.0
4
5
6
7
8
10
100
1
10
A
D
C
B
0.1
1
0
1
2
3
4
= ZEN056V130A24YC
= ZEN132V130A24YC
= ZEN056V2yyA16YC
= ZEN132V2yyA16YC
A
B
C
D
= ZEN056V130A24YC
= ZEN132V130A24YC
= ZEN056V2yyA16YC
= ZEN132V2yyA16YC
A
D
C
B
0.01
0.10.0
A
B
C
D
Time-to-Trip vs. IFLT RMS (IOUT = 0)
0.5
1.0
1.5
IFLT RMS (A)
2.0
2.0
2.5
3.0
3.5
4.0
2.5
3.0
3.5
4.0
IFLT RMS (A)
5
6
7
8
IFLT RMS (A)
30
B
1
Figure PZ15
Temperature Effect on IHOLD (IFLT = 0)
2.5
IHOLD (A)
4.0
2.0 (A) 2.5
IFLT RMS
0.1
0.001
3
IHOLD (A)
3.5
1
0.01
Figure PZ14
3.0
A = ZEN056V130A16YM
B
A=
= ZEN132V130A16YM
ZEN056V130A16YM
C
B=
= ZENxxxV175A12YM
ZEN132V130A16YM
C = ZENxxxV175A12YM
100
B
-0.6
-0.8
-2.0
2.5
Time-to-Trip vs. IFLT RMS (IOUT = 0)
Time-to-Trip vs. IFLT RMS (IOUT = 0)
100
Time-to-Trip
Time-to-Trip
(s) (s)
-0.4
-0.6
VOUT
VOUT
Peak
Peak
(V) (V)
Figure PZ13
A = ZEN056V130A16YM
B
A=
= ZENxxxV1yyAzzYM
ZEN056V130A16YM
B = ZENxxxV1yyAzzYM
-0.2
-0.4
A
D
C
IFLT RMS (A)
VOUT Peak vs. IFLT RMS (IOUT = 0)
VOUT Peak vs. IFLT RMS (IOUT = 0)
0.0
A
B
C
IFLT RMS (A)
Figure PZ12
= ZEN056V130A16YM
=
= ZEN056V175A12YM
ZEN056V130A16YM
=
= ZEN132V130A16YM
ZEN056V175A12YM
=
ZEN132V175A12YM
= ZEN132V130A16YM
1
0.1
4.0
2.0
2.0
0.0
A
B
A
C
B
D
C
100
C = ZEN132V175A12YM
8.0
6.0
Time-to-Trip vs. IFLT RMS (IOUT = 0)
Time-to-Trip vs. IFLT RMS (IOUT = 0)
Figure100PZ11
Time-to-Trip
Time-to-Trip
(s) (s)
Figure 18.0
PZ10
TE Connectivity /// Circuit protection product catalog
0.01
0.0
0.5
1.0
1.5
2.0
IFLT RMS (A)
RoHS Compliant, ELV Compliant
4
PolyZen Devices
Polymer Protected Zener Diode
Figures PZ16-PZ21 — Typical Performance Curves for PolyZen Devices - YC Series
Figure PZ18
Figure PZ19
VOUT Peak vs. IFLT RMS (IOUT = 0)
Time-to-Trip vs. IFLT RMS (IOUT = 0)
100
0.0
VOUT Peak (V)
-0.4
= ZEN056V130A24YC
= ZEN056V2yyA16YC
= ZEN132V130A24YC
= ZEN132V2yyA16YC
-0.6
C
-0.8
-1.0
-30
0.1
0.01
A
-20
-10
0
0.001
-40
IFLT RMS (A)
Figure PZ20
Figure PZ21
Temperature Effect on IHOLD (IFLT = 0)
Time-to-Trip (s)
IHOLD (A)
3
2
C
1.5
1
20
40
60
Time-to-Trip vs. IPTC RMS (IFLT = 0)
80
A = ZENxxxV130A24YC
B = ZENxxxV2yyA16YC
A
1
0.1
B
A
0.5
0
0
-10
B
10
2.5
-20
-20
100
A = ZENxxxV130A24YC
B = ZENxxxV230A16YC
C = ZENxxxV260A16YC
3.5
-40
-30
IFLT RMS (A)
4
0
C
B
A
-40
D
= ZEN056V130A24YC
= ZEN056V2yyA16YC
= ZEN132V130A24YC
= ZEN132V2yyA16YC
1
D
B
A
B
C
D
10
Time-to-Trip (s)
A
B
C
D
-0.2
-1.2
(Cont’d)
0.01
0.001
100
0
10
Ambient Temperature (°C)
20
40
30
IPTC RMS (A)
Table PZ3 — General Characteristics for PolyZen Devices
Operating temperature range
Storage temperature
ESD withstand
Diode capacitance
Construction
-40° to +85°C
-40° to +85°C
15kV
4200pF
RoHS compliant
Human body model
Typical @ 1MHz, 1V RMS
Figures PZ22-PZ34 — Basic Operation Examples for PolyZen Devices - LS Series
Figure PZ22
Hot-Plug Response
ZEN056V130A24LS vs. a 22V/120W Universal Power Supply
350
C
30
Voltage (V) and Current (A)
A = VIN
Capacitive
Current Spike
Current Pulled to
GND via Diode
25
B = VOUT
Supply Voltage
Returns to Normal
Supply Voltage
Dropped by Current
300
C = CURRENT (IFLT)
D = POWER
250
A
200
20
D
15
PPTC Switches to
High Resistance
10
150
Output Voltage
Remains Clamped
100
A
B
B
5
50
VOUT Peak
0
0
Power (Watts)
35
0.01
0.02
C
0.03
D
0
0.04
0.05
0.06
0.07
0.08
Time (s)
RoHS Compliant, ELV Compliant
TE Connectivity /// Circuit protection product catalog
31
4
PolyZen
Devices
Typical
Fault
Response:
ZEN056V1xxA24LS
Typical
Fault
Response:
ZEN056V1xxA24LS
Polymer
Protected
Zener
3.5A
Current
Limited
Source
(I=0)
20V,20V,
3.5A
Current
Limited
Source
(IDiode
OUT=0)
OUT
20
20
18
18
14
18
AIN=(V)
VIN (V)
14A = V
18
A
A
Typical
Typical
Fault
Fault
Response:
Response:
ZEN056V1xxA24LS
ZEN056V1xxA24LS
V
A = VAIN=(V)
IN (V)
A
A
Typical
Typical
Fault
Fault
Response:
Response:
ZEN059V130A24LS
ZEN059V130A24LS
AIN=(V)
VIN (V)
22A = V
22
20V,
20V,
3.5A3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
=V
(V)
OUT=0)
B = VBOUT
(V)
OUT
Typical
Fault
Response:
ZEN059V130A24LS
Typical
Fault
Response:
ZEN059V130A24LS
6A Current
Limited
Source
24V,24V,
6A Current
Limited
Source
(IOUT(I=0)
OUT=0)
24
24
24V,
6A Current
6A Current
Limited
Limited
Source
Source
(IOUT(I=0)
BOUT
=V
(V)24V,
OUT=0)
(V)
OUT
20B = V
24
IFLT (A)
18C = IC
FLT=(A)
A
A
AIN=(V)
VIN (V)
22A = V
12
16
Figure
PZ23
20
10
10 20
14
14
FLT
A
IN
IN
18
8
8 18
20V,20V,
3.5A
3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
12
12
OUT=0)
B = VBOUT
=V
(V)
OUT (V)
20
20
B B
16
6
6 16
10
10
A A
CA == IC
IVFLT (V)
(A)
(A)
FLT=
V
A
IN=(V)
IN
18 14
18
14
4
4
8
8B = V
BOUT
=V
(V)
OUT (V)
16 12
16
12
B B
2
2
6
6 C = ICFLT=(A)
IFLT (A)
C C
14 10
14
10
0
0
4
4
-0.02
0.02 0.02
0.06 0.06
0.10 0.10
0.14 0.14
0.18 0.18
12
12
8-0.02
8
2
2
TimeTime
(s) (s)
B B
C
C
10
6 10
6
0
0
0.02 0.02
0.06 0.06
0.10 0.10
0.14 0.14
0.18 0.18
48-0.0248-0.02
26
TimeTime
(s) (s)
26
04
04
-0.02 -0.02
2
2
B
B
C
C
0.02 Typical
0.02 Fault
0.06
0.06Response:
0.10ZEN065V130A24LS
0.10ZEN065V130A24LS
0.14 0.14
0.18 0.18
Fault
Typical
Response:
Current
Limited
Source
=0) C
24V,24V,
5.0A5.0A
Current
Limited
(IOUT(I=0)
Time
Time
(s)
(s)Source
OUTC
Current
Limited
Source
=0)
24V,24V,
3.5A3.5A
Current
Limited
(IOUT(IC
=0)
Time
Time
(s)
(s)Source
OUTC
0
0
24 24
0.02 0.02
0.05 0.05
0.10 0.10
A 0.15
A 0.15
Typical
Typical
Fault
Fault
Response:
Response:
ZEN098V130A24LS
ZEN098V130A24LS
AIN=(V)
VIN (V)
22 22A = V
A
A
Typical
Fault
Response:
ZEN065V130A24LS
Typical
Fault
Response:
ZEN065V130A24LS
A
A
IFLT (A)
C = IC
FLT=(A)
AIN=(V)
VIN (V)
24
18A = V
Figure PZ25
22
BOUT
=V
(V)
OUT (V)
16B = V
24V,24V,
5.0A5.0A
Current
Limited
Source
(IOUT(I=0)
Current
Limited
Source
OUT=0)
20
IFLT (A)
14C = IC
FLT=(A)
26
Typical
Fault
Response:
ZEN065V130A24LS
Typical
Fault
Response:
ZEN065V130A24LS
18
12
AIN=(V)
VIN (V)
24A = V
5.0A
Current
Limited
Source
24V,24V,
5.0A
Current
Limited
Source
(IOUT(I=0)
16
OUT=0)A
A
10
22
B = VBOUT
=V
(V)
OUT (V)
26
14
8
B B
20
C
=
I
C
=
I
(A)
(A)
FLT=(V)
FLT
A
24A = V
12
IN VIN (V)
6
18
A A
22B = V
10
BOUT
=V
(V)
OUT (V)
4
16
B
B
20
8
IFLT (A)
2 C = ICFLT=(A)
14
C C
18
6
0
12
0 16
4 0 0.01 0.010.02 0.020.03 0.030.04 0.040.05 0.050.06 0.060.07 0.070.08 0.080.09 0.090.10 0.10
10
14
2
TimeTime
(s) (s)
C
B C
B
8
12
0
6 0 0.01 0.010.02 0.020.03 0.030.04 0.040.05 0.050.06 0.060.07 0.070.08 0.080.09 0.090.10 0.10
0 10
4
TimeTime
(s) (s)
B B
8
2
C C
6
0
0 4 0 0.01 0.010.02 0.020.03 0.030.04 0.040.05 0.050.06 0.060.07 0.070.08 0.080.09 0.090.10 0.10
2
2
Typical
Fault
Response:
ZEN132V130A24LS
Typical
Fault
Response:
ZEN132V130A24LS
TimeTime
(s) (s)
C
Figure PZ27
25
30
Current
Limited
Source
24V,24V,
2.0A2.0A
Current
Limited
Source
(IOUT(I=0)
OUT=0)A
BOUT
=V
(V)
OUT (V)
25B = V
30
A
20
25
Typical
Fault
Response:
ZEN132V130A24LS
Typical
Fault
Response:
ZEN132V130A24LS
20
BOUT
=V
(V)
OUT (V)
A
25B = V
A
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
TimeTime
(s)ZEN132V130A24LS
(s) ZEN132V130A24LS
Typical
Fault
Response:
Typical
Fault
Response:
V
A = VAIN=(V)
IN (V)
IFLT (A)
C = IC
FLT=(A)
A = VAIN=(V)
VIN (V)
24V,24V,
2.0A2.0A
Current
Limited
Source
(IOUT(I=0)
Current
Limited
Source
OUT=0)
C = IC
IFLT (A)
FLT=(A)
B
30
15
Typical
Typical
Fault
Fault
Response:
Response:
ZEN132V130A24LS
ZEN132V130A24LS
20A = V
AIN=(V)
VIN (V)
30
15
20
24V,24V,
2.0A
2.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
B
B = VBOUT
=V
(V)
OUT (V)
25
10
30 25
30
10
15 15C = IC
IVFLT (V)
(A)
FLT=
A =V
A
=(A)
(V)
A
B
A
B
20
20
BOUT
=V
(V)
OUT (V)
5B = V
25
5 25
10 10
A
A
B
C
B
C
B
C
B
C
IN
IN
C = ICFLT=(A)
IFLT (A)
15
15
0
20
0 20
5 0 5 0 0.05 0.050.10 0.100.15 0.150.20 0.200.25 0.250.30 0.300.35 0.350.40 0.400.45 0.450.50 0.50
10
15
0
5
10
0
10
15
0
5
10
TimeTime
(s) (s)
0 0.05 0.050.10 0.100.15 0.150.20 0.200.25 0.250.30 0.300.35 0.350.40 0.400.45 0.450.50 0.50
TimeTime
(s) (s)
C
20
24
18
22
16
20
14
18
24
12
16
22
10
14
20
24
8
12
18
22
6
10
16
20
4
8
14
18
2
6
12
16
0
40
10
14
2
8
12
0
6
10
0
48
C
Time
Time
(s)
(s)Source
24V,24V,
3.5A3.5A
Current
Current
Limited
Limited
Source
(I (I=0) =0)
OUT OUT
BOUT
=V
(V)
OUT (V)
20B = V
24
IFLT (A)
18C = IC
A A
FLT=(A)
AIN=(V)
VIN (V)
22A = V
Typical
Typical
Fault
Fault
Response:
Response:
ZEN098V130A24LS
ZEN098V130A24LS
16
BOUT
=V
(V)
OUT (V)
20B = V
24V,24V,
3.5A3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
14
IFLT (A)
FLT=(A)
18C = IC
24
12
B
B A
Typical
Typical
Fault
Fault
Response:
Response:
ZEN098V130A24LS
ZEN098V130A24LS
A
16A = V
AIN=(V)
VIN (V)
22
10
24V,24V,
3.5A
3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
14B = V
BOUT
=V
(V)
OUT (V)
20
8
24
A B
A
12C = IC
B
IVFLT (V)
(A)
(A)
FLT=
18
A
6A = V
IN=(V)
IN
22
10
16
BOUT
=V
(V)
4B = V
OUT (V)
20
8
14
IFLT (A)
2C = ICFLT=(A)
18
C C
6
12
B B
0
16
4
0
0.05 0.05
0.10 0.10
0.15 0.15
10
14
2
TimeTime
(s) (s)
8
C
12
B C
B
0
6
10
0
0.05 0.05
0.10 0.10
0.15 0.15
48
Figure PZ26
26
04
2
C
0
Current
Limited
Source
24V,24V,
2.0A2.0A
Current
Limited
Source
(I 0.08(I=0)
OUT=0)
0
0 0.01 0.010.02 0.020.03 0.030.04 0.040.05 0.050.06 0.060.07 0.07OUT
0.080.09 0.090.10 0.10
30 30
0
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
TimeTime
(s) (s)
24V,24V,
5.0A5.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
22B = V
BOUT
=V
(V)
OUT (V)
26
20
0
0
0
26
04
2
0
TimeTime
(s) (s)
C
0
TimeTime
(s)ZEN164V130A24LS
(s)ZEN164V130A24LS
Typical
Typical
Fault
Fault
Response:
Response:
VIN (V)
A = VAIN=(V)
24V,
24V,
1.0A1.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
BOUT
=V
(V)
OUT (V)
25B = V
A
30
A
20
25
Typical
Typical
Fault
Fault
Response:
Response:
ZEN164V130A24LS
ZEN164V130A24LSB
20
BOUT
=V
(V)
OUT (V)
25B = V
A
B
A
30
15
20
30
15
Typical
Typical
Fault
Fault
Response:
Response:
ZEN164V130A24LS
ZEN164V130A24LS
20A = V
AIN=(V)
VIN (V)
B
IFLT (A)
C = IC
FLT=(A)
A = VAIN=(V)
VIN (V)
24V,24V,
1.0A1.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
C = IC
IFLT (A)
FLT=(A)
24V,24V,
1.0A
1.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
B = VBOUT
=V
(V)
OUT (V)
25
10
30 25
30
10
15 15C = IC
IVFLT (V)
(A)
FLT=
A =V
A
=(A)
(V)
IN
C = ICFLT=(A)
IFLT (A)
15
15
0
20
0 20
50 50
10
15
0
5
10
0
10
15
0
5
10
20
15C = IC
IFLT (A)
FLT=(A)
A
A = VAIN=(V)
VIN (V)
Typical
Typical
Fault
Fault
Response:
Response:
ZEN056V230A16LS
ZEN056V230A16LS
A A
16V,16V,
5.0A5.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
B = VBOUT
=V
(V)
OUT (V)
15
20
10
15C = IC
IFLT (A)
FLT=(A)
20
10
20
10
15
5
BOUT
=V
(V)
OUT (V)
20B = V
10C = IC =(A)
15
IFLT (A)
FLT=(V)
5A = V
A
IN VIN (V)
A
B
A
B
B =V
BOUT
=V
(V)
OUT (V)
A
B
C
A
B
C
15
5
10
0
10
0
5
Typical
Typical
Fault
Fault
Response:
Response:
ZEN056V230A16LS
ZEN056V230A16LS
A = VAIN=(V)
VIN (V)
16V,16V,
5.0A
5.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
15C = ICFLT=(A)
IFLT (A)
5
10
0
0
0
0
10
0
5
0.10 0.10
0.20 0.20
TimeTime
(s) (s)
0
0.10 0.10
B
C
0.20 0.20
5
TE 5Connectivity /// Circuit
0
0
0
0
0.10 0.10
0
B
C
0.30 0.30
B
TimeTime
(s) (s)
0
0.30 0.30
B
C C catalog
protection product
0.20 0.20
0.30 0.30
Typical
Fault
Response:
ZEN098V230A16LS
Typical
Fault
Response:
ZEN098V230A16LS
TimeTime
(s)
(s)
C C
Current
Limited
Source
16V,16V,
3.5A3.5A
Current
Limited
Source
(IOUT(I=0)
OUT=0)
0.30 0.30
0.40 0.40
0.10 0.10
0.20 0.20
B
A
C
B
C
0.30 0.30
0.40 0.40
05
C
C
C
0.10 0.10
0.20 0.20
0.30 0.30
0.40 0.40
0.50 0.50
Typical
Fault
Response:
ZEN065V230A16LS
Typical
Fault
Response:
ZEN065V230A16LS
C C
Time
Time
(s)
(s)Source
Current
Limited
Source
16V,16V,
3.5A3.5A
Current
Limited
(IOUT(I=0)
OUT=0)
0.10 0.10
0.20 0.20
0.30 0.30
0.40 0.40
16V,
16V,
3.5A3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
=V
B = VBOUT
(V)
OUT (V)
20
15
0.50 0.50
0.50 0.50
TimeTime
(s) (s)
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
20
15
0.20 0.20
B
A
C
B
Typical
Typical
Fault
Fault
Response:
Response:
ZEN065V230A16LS
ZEN065V230A16LS
VIN (V)
A = VAIN=(V)
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
32
TimeTime
(s) (s)
Current
Limited
Source
16V,16V,
5.0A5.0A
Current
Limited
Source
(IOUT(I=0)
OUT=0)
=V
B = VBOUT
(V)
A
OUT (V)
B
A
TimeTime
(s) (s)
0
0
20 20
0
0
Typical
Fault
Response:
ZEN056V230A16LS
Typical
Fault
Response:
ZEN056V230A16LS
V
A = VAIN=(V)
IN (V)
05
0.10 0.10
TimeTime
(s) (s)
0
A
IN
20
20
BOUT
=V
(V)
OUT (V)
5B = V
25
5 25
10 10
0
0
20 20
0
0 0.05 0.050.10 0.100.15 0.150.20 0.200.25 0.250.30 0.300.35 0.350.40 0.400.45 0.450.50 0.50
Typical
Fault
Response:
ZEN056V230A16LS
Typical
Fault
Response:
ZEN056V230A16LS
Time
Time
(s)
(s)Source
C
Current
Limited
Source
16V,16V,
5.0A5.0A
Current
Limited
(IOUT(I=0)
OUT=0)C
C
0.15 0.15
25
30
Figure PZ30
0
0
05
0.10 0.10
Typical
Fault
Response:
Typical
Fault
Response:
TimeTime
(s)ZEN164V130A24LS
(s)ZEN164V130A24LSC C
Current
Limited
Source
24V,24V,
1.0A1.0A
Current
Limited
Source
(I (I=0)
OUT=0)
0.05 0.05
0.10 0.10 OUT
0.15 0.15
0
Figure0 PZ29
0 0.05 0.050.10 0.100.15 0.150.20 0.200.25 0.250.30 0.300.35 0.350.40 0.400.45 0.450.50 0.50
05
0.05 0.05
30 30
Figure PZ28
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
0
0
26 26
-0.02-0.02
0.02 0.02
0.06 0.06
0.10 0.10
0.14 0.14
0.18 0.18
Typical
Typical
Fault
Fault
Response:
Response:
ZEN065V130A24LS
ZEN065V130A24LS
AIN=(V)
V
24 24A = V
IN (V)
22
26
20
24
18
22
16
20
14
26
18
12
24
16
10
22
26
14
8
20
24
12
6
18
22
10
4
16
20
8
2
14
18
6
0
12
16
4
10
14
2
8
12
0
6
10
4
8
2
6
0
4
(Cont’d)
22
16 16
Typical
Typical
Fault
Fault
Response:
Response:
ZEN059V130A24LS
ZEN059V130A24LS
BOUT
=V
(V)
OUT (V)
20 20B = V
14 14
24V,
24V,
6A Current
6A Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
C
=
I
C
=
I
(A)
(A)
FLT
FLT
18 24
18
24
12 12
A A
Typical
Typical
Fault
Fault
Response:
Response:
ZEN059V130A24LS
ZEN059V130A24LS
16 22
16A = V
AIN=(V)
VIN (V)
22
10 10
24V,24V,
6A Current
6A Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
14 20
14B = V
BOUT
=V
(V)
OUT (V)
20
8
8 24
24
B
12
12C = IC
A B
A
IVFLT (V)
(A)
(A)
FLT=
18
18
A
=
V
A
=
(V)
6
6
IN
IN
22 22
10 16
10
16
BOUT
=V
(V)
4B = V
4 20
OUT (V)
20
8 14
8
14
IFLT (A)
2C = ICFLT=(A)
B B
2 18
18
6 12
6
C C
12
0
0 16
16
4
4
0.05 0.05
0.10 0.10
0.15 0.15
100.02100.02
14 14
2
2
8
8
TimeTime
(s) (s)
C B
C
12 12
B
0
0
6
6
10
0.0210
0.02
0.05 0.05
0.10 0.10
0.15 0.15
4
4
8
8
TimeTime
(s) (s)
B
B
2
2
6
6
C C
0
0
4
4
0.02 0.02
0.05
0.05
0.10 0.10
0.15 0.15
Typical
Fault
Response:
ZEN098V130A24LS
Typical
Fault
Response:
ZEN098V130A24LS
2
2
Figure PZ24
FLT
Fault
Fault
Response:
Response:
ZEN056V1xxA24LS
ZEN056V1xxA24LS
A = VA =(V)
VTypical
(V)Typical
A
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
FLT
Typical
Typical
Fault
Fault
Response:
Response:
ZEN056V1xxA24LS
ZEN056V1xxA24LS
B = VBOUT
=V
(V)
OUT (V)
12
16
20V,20V,
3.5A3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
C = IC =(A)
I (A)
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
FLT
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
(V)Voltage
or Current
(V) or
(A)Current
(V) or Current
(A)
(A)
VoltageVoltage
(V) or Current
(A)Voltage
20
16 PZ22-PZ34 — Basic Operation Examples for
16 20
20
24 PolyZen Devices - LS Series
Figures
I (A)
C = IC =(A)
18
A A
0.50 0.50
A
A
Typical
Typical
Fault
Fault
Response:
Response:
ZEN065V230A16LS
ZEN065V230A16LS
A
16V,16V,
3.5A3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
A
20
15C = IC
IFLT (A)
FLT=(A)
A = VAIN=(V)
VIN (V)
B = VBOUT
=V
(V)
OUT (V)
15
20
10
15C = IC
IFLT (A)
FLT=(A)
20
10
20
10
15
5
BOUT
=V
(V)
OUT (V)
20B = V
10C = IC =(A)
15
IFLT (A)
FLT=(V)
5A = V
A
IN VIN (V)
A
B
A
B =V
BOUT
=V
(V)
OUT (V)
B
A
B
A
15
5
10
0
10
0
5
Typical
Typical
Fault
Fault
Response:
Response:
ZEN065V230A16LS
ZEN065V230A16LS
A = VAIN=(V)
VIN (V)
16V,16V,
3.5A
3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0) B
15C = ICFLT=(A)
IFLT (A)
5
10
0
0
0
0
10
0
5
C
0.10 0.10
0.20 0.20
TimeTime
(s) (s)
0
0.10 0.10
0.20 0.20
B
C
C
0.30 0.30
B
C
B 0.30
B 0.30
TimeTime
(s) (s)
5
0
0
0
5
0
0
C
RoHS Compliant, ELVC Compliant
0
0.10 0.10
0.20 0.20
Typical
Fault
Response:
ZEN132V230A16LS
Typical
Fault
Response:
ZEN132V230A16LS
TimeTime
(s)
(s)
C
Current
Limited
Source
20V,20V,
2.0A2.0A
Current
Limited
Source
(IOUT(I=0)
OUT=0)
0.30 0.30
C
PolyZen Devices
C
C
0.10 0.10
0.20 0.20Diode
Polymer Protected
Zener
0
0
0 0 0 0
0
0
0.10 0.10
TimeTime
(s) (s) 0.20 0.20
TimeTime
(s) (s)
Voltage
Voltag(
B
B
B
B
5
5
C
C
Voltage
Voltag(
Voltage
Voltag(
Voltage
Voltag(
4
5
5
5
5
0
0
0 0 0 0
0
0
0.30 0.30
0.30 0.30
0.10 0.10
0.10 0.10
TimeTime
(s) (s)
TimeTime
(s) (s)
C
C
0.20 0.20
0.20 0.20
Figures PZ22-PZ34 — Basic Operation Examples for PolyZen Devices - LS Series
Typical
Typical
Fault
Fault
Response:
Response:
ZEN098V230A16LS
ZEN098V230A16LS
Typical
Fault
Response:
ZEN098V230A16LS
Typical
Fault
Response:
ZEN098V230A16LS
16V,
16V,
3.5A
3.5A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
16V,16V,
3.5A3.5A
Current
Limited
Source
(IOUT(I
=0)
Current
Limited
Source
OUT=0)
0.10 0.10
0.10 0.10
Time
Time
(s) (s)
0.15 0.15
0.15 0.15
A
A
B
B
B
B
C
C
Voltage
(V)(V)
or or
Current
(A)(A)
Voltage
Current
A
A
C
C 0.20
0.20
0.20 0.20
22
22
20
20
18
18
16
16
14
14
12
12
10
10
8
8
6
6
4
4
2
2
0
0 0
0
22
(V)VIN (V)
22A = VAIN =
20
A = VA
(V)
=
V
IN (V)
BOUT
= (V)
VOUT
(V)
20B = VIN
18
B = VOUT
(V)
B=
=(A)
(V)
OUT(A)
C
IVFLT
18C = IFLT
16
C = IFLT
C (A)
= IFLT (A)
16
14
14
12
12
10
10
8
8
6
6
4
4
2
2
0
0.05 0.05
00
0.05 0.05
0
0.10 0.10
0.10 0.10
TimeTime
(s) (s)
40
40
30
30
30
30
20
20
20
20
10
10
10
10
A
A
A
A
B
B
C
C
B
B
C
C 0.04
0.04
40
C = IFLT
C (A)
= IFLT (A)
0
0
0 0 0 0
0
0
0.01 0.01
0.01 0.01
0.02 0.02
0.03 0.03
0.03 0.03
0.02 0.02
Time
Time
(s) (s)
TimeTime
(s) (s)
0.04 0.04
Voltage
(V)(V)
or or
Current
(A)(A)
Voltage
Current
Figure PZ34
Typical
Fault
Response:
ZEN056V075A48LS
Typical
Fault
Response:
ZEN056V075A48LS
Typical
Fault
Response:
ZEN056V075A48LS
Fault
Response:
ZEN056V075A48LS
48V,Typical
10.0A
Current
Limited
Source
(IOUT(I=0)
48V,
10.0A
Current
Limited
Source
OUT=0)
48V,48V,
10.0A
Current
Limited
Source
(IOUT(I
=0)
10.0A
Current
Limited
Source
OUT=0)
AB ==VVIN
(V)
A
=
V
IN (V)
BOUT
= (V)
VOUT
(V)
40
BC ==VIOUT
(V)
B=
=(A)
(V)
OUT(A)
C
IVFLT
FLT
A
A
B
B
B
B
C
C
C
C
0.25 0.25
0.25 0.25
0.30 0.30
0.30 0.30
TimeTime
(s) (s)
50
50A = VAIN =
(V)VIN (V)
Voltage
Voltage
(V)(V)
or or
Current
Current
(A)(A)
Voltage
(V)(V)
or or
Current
(A)(A)
Voltage
Current
50
50
A
A
Typical
Typical
Fault
Fault
Response:
Response:
ZEN132V075A48LS
ZEN132V075A48LS
Typical
Fault
Response:
ZEN132V075A48LS
Typical
Fault
Response:
ZEN132V075A48LS
48V,
48V,
2.0A
2.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
48V,48V,
2.0A2.0A
Current
Limited
Source
(IOUT(I
=0)
Current
Limited
Source
OUT=0)
50 50
50
A A
50A = VAIN =
(V)VIN (V)
45 45
A
A
A = VA
(V)
=
V
IN (V)
BOUT
= (V)
VOUT
(V)
45
45B = VIN
40 40
BC ==VIOUT
(V)
B=
=(A)
VFLT
(V)
OUT(A)
C
I
FLT
40
40
35 35
C = IFLT
C (A)
= IFLT (A)
35
35
30 30
30
30
25 25
25
25
20 20
20
B B
20
15 15
B
B
15
15
10 10
10
10
5
5
5
C C
5
0
0
C 0.18
C 0.20
0.04 0.04
0.06 0.06
0.08 0.080.10 0.10
0.12 0.12
0.14 0.14
0.16 0.160.18
0.20
0 0 0 00.02 0.02
0
0.04 0.04
0.06 0.06
0.08 0.08
0.10 0.10
0.14 0.14
0.16 0.16
0.18 0.18
0.20 0.20
00.02 0.02
Time
Time
(s) 0.12
(s) 0.12
Voltage
Voltage
(V)(V)
or or
Current
Current
(A)(A)
Figure PZ33
0.15 0.15
0.20 0.20
0.15 0.15
Time
Time
(s) (s) 0.20 0.20
C
C
0.30 0.30
0.30 0.30
(Cont’d)
Typical
Typical
Fault
Fault
Response:
Response:
ZEN132V230A16LS
ZEN132V230A16LS
Typical
Fault
Response:
ZEN132V230A16LS
Typical
Fault
Response:
ZEN132V230A16LS
20V,
20V,
2.0A
2.0A
Current
Current
Limited
Limited
Source
Source
(IOUT(I=0)
OUT=0)
20V,20V,
2.0A2.0A
Current
Limited
Source
(IOUT(I
=0)
Current
Limited
Source
OUT=0)
Figure PZ32
Voltage
Voltage
(V)(V)
or or
Current
Current
(A)(A)
18 18
18
(V)VIN (V)
18A = VAIN =
16 16
AB ==VVIN
(V)
A
=
V
IN (V)
BOUT
= (V)
VOUT
(V)
16
16
BC ==VIOUT
(V)
B=
=(A)
(V)
14 14
OUT(A)
C
IVFLT
FLT
14
14
C = IFLT
C (A)
= IFLT (A)
12 12
12
12
10 10
10
10
8
8
8
8
6
6
6
6
4
4
4
4
2
2
2
2
0
0
0.05 0.05
0 0 0 0
0
0.05 0.05
0
Voltage
Voltage
(V)(V)
or or
Current
Current
(A)(A)
Voltage
(V)(V)
or or
Current
(A)(A)
Voltage
Current
Figure PZ31
B
B
B
B
5
5
TimeTime
(s) (s)
Figures PZ35-PZ38 — Basic Operation Examples for PolyZen Devices - YM Series
Voltage (V) or Current (A)
25
A = VIN (V)
B = VOUT (V)
C = IFLT (A)
20
Figure PZ36
Typical Fault Response: ZEN056V130A16YM
20V/3A Current Limited Source (IOUT = 0)
15
10
B
5
C
A = VIN (V)
B = VOUT (V)
C = IFLT (A)
10
A
B
5
C
0
0
0.00
25
0.05
0.10
Time (s)
0.15
20
Figure PZ38
Typical Fault Response: ZEN132V130A16YM
20V/1A Current Limited Source (IOUT = 0)
A = VIN (V)
B = VOUT (V)
C = IFLT (A)
B
10
5
C
0.05
0.10
0.15
Time (s)
RoHS Compliant, ELV Compliant
0.20
Time (s)
0.10
0.15
A = VIN (V)
B = VOUT (V)
C = IFLT (A)
20
A
B
15
10
5
C
0
0
0.00
0.05
Typical Fault Response: ZEN132V175A12YM
20V/1A Current Limited Source (IOUT = 0)
25
A
15
0.00
Voltage (V) or Current (A)
Figure PZ37
Voltage (V) or Current (A)
Typical Fault Response: ZEN056V175A12YM
12V/3A Current Limited Source (IOUT = 0)
15
A
Voltage (V) or Current (A)
Figure PZ35
0.25
0.00
0.05
0.10
0.15
0.20
0.25
0.30
Time (s)
TE Connectivity /// Circuit protection product catalog
33
4
PolyZen Devices
Polymer Protected Zener Diode
Figures PZ39-PZ44 — Basic Operation Examples for PolyZen Devices - YC Series
Figure PZ39
Typical
Typical
Fault
Fault
Response:
Response:
ZEN056V130A24YC
ZEN056V130A24YC
24V/3A
Current
Limited
Source
(IOUT
24V/3A
Current
Limited
Source
(IOUT
= 0)
= 0)
Figure PZ40
20 20
25 25
A =AV=
V
(V) (V)
IN IN
B =BV=
V (V) (V)
OUT OUT
(A)
C =CIFLT
= I(A)
FLT
A A
15 15
10 10
B B
5 5
Voltage (V) or Current (A)
Voltage (V) or Current (A)
Voltage (V) or Current (A)
Voltage (V) or Current (A)
25 25
Typical
Typical
Fault
Fault
Response:
Response:
ZEN056V230A16YC
ZEN056V230A16YC
20V/3A
Current
Limited
Source
(IOUT
20V/3A
Current
Limited
Source
(IOUT
= 0)
= 0)
20 20
A =AV=
V
(V) (V)
IN IN
B =BV=
V (V) (V)
OUT OUT
(A)
C =CIFLT
= I(A)
FLT
A A
15 15
10 10
C C
0 0
0.000.00 0.050.05 0.100.10 0.150.15 0.200.20 0.250.25 0.300.30 0.350.35 0.400.40
B B
5 5
C C
0 0
0.000.00 0.050.05 0.100.10 0.150.15 0.200.20 0.250.25 0.300.30 0.350.35 0.400.40
Time
Time
(s) (s)
Figure PZ41
Time
Time
(s) (s)
Typical
Typical
Fault
Fault
Response:
Response:
ZEN056V260A16YC
ZEN056V260A16YC
= 0)
= 0)
20V/3A
20V/3A
Current
Current
Limited
Limited
Source
Source
(IOUT
(IOUT
Figure PZ42
Typical
Typical
Fault
Fault
Response:
Response:
ZEN132V130A24YC
ZEN132V130A24YC
24V/1A
24V/1A
Current
Current
Limited
Limited
Source
Source
(IOUT
(IOUT
= 0)
= 0)
25 25
20 20
V
A =AV=
(V) (V)
IN IN
B =BV=
V (V) (V)
OUT OUT
(A)
C =CIFLT
= I(A)
FLT
A A
15 15
10 10
B B
5 5
Voltage (V) or Current (A)
Voltage (V) or Current (A)
Voltage (V) or Current (A)
Voltage (V) or Current (A)
25 25
C C
20 20
A =AV=
V
(V) (V)
IN IN
B =BV=
V (V) (V)
OUT OUT
(A)
C =CIFLT
= I(A)
FLT
B B
15 15
10 10
5 5
C C
0 0
0.000.00
0 0
0.000.00 0.050.05 0.100.10 0.150.15 0.200.20 0.250.25 0.300.30 0.350.35 0.400.40
A A
0.100.10
0.200.20
Figure PZ43
0.500.50
0.600.60
Typical
Typical
Fault
Fault
Response:
Response:
ZEN132V260A16YC
ZEN132V260A16YC
= 0)
= 0)
20V/1A
20V/1A
Current
Current
Limited
Limited
Source
Source
(IOUT
(IOUT
25 25
A =AV=
V
(V) (V)
IN IN
B =BV=
V (V) (V)
OUT OUT
(A)
C =CIFLT
= I(A)
FLT
A A
B B
15 15
10 10
5 5
C C
0 0
0.000.00
0.100.10
0.200.20
0.300.30
0.400.40
0.500.50
0.600.60
Voltage (V) or Current (A)
Voltage (V) or Current (A)
25 25
Voltage (V) or Current (A)
Voltage (V) or Current (A)
0.400.40
Figure PZ44
Typical
Typical
Fault
Fault
Response:
Response:
ZEN132V230A16YC
ZEN132V230A16YC
20V/1A
20V/1A
Current
Current
Limited
Limited
Source
Source
(IOUT
(IOUT
= 0)
= 0)
20 20
0.300.30
Time
Time
(s) (s)
Time
Time
(s) (s)
20 20
A =AV=
V
(V) (V)
IN IN
B =BV=
V (V) (V)
OUT OUT
(A)
C =CIFLT
= I(A)
FLT
A A
B B
15 15
10 10
5 5
C C
0 0
0.000.00
0.100.10
Time
Time
(s) (s)
0.200.20
0.300.30
0.400.40
0.500.50
0.600.60
Time
Time
(s) (s)
Table PZ4 - Packaging and Marking Information for PolyZen Devices
Part Number
Bag Quantity
Tape & Reel Quantity
Standard Package
ZENxxxVyyyAzzLS
—
3,000
15,000
ZENxxxVyyyAzzYM
—
3,000
30,000
ZENxxxVyyyAzzYC
—
4,000
20,000
34
TE Connectivity /// Circuit protection product catalog
RoHS Compliant, ELV Compliant
4
PolyZen Devices
Polymer Protected Zener Diode
Table PZ5 — Dimensions in Millimeters and (Inches)
ZENxxxVyyyAzzLS Devices
A
mm
in
B
C
Min
Max
Min
Max
Min
Max
3.85
4.15
3.85
4.15
1.40
2.00
(0.152)
(0.163)
(0.152)
(0.163)
(0.055)
(0.081)
C
A
B
ZENxxxVyyyAzzYM Devices
A
mm
in
B
C
Min
Max
Min
Max
Min
3.00
3.40
2.30
2.70
1.10
Max
1.30
(0.118)
(0.134)
(0.091)
(0.106)
(0.043)
(0.051)
C
W
A
ZENxxxVyyyAzzYC Devices
L
A
Min
mm
in
B
Max
Min
C
Max
Min
B
Max
4.80
5.20
3.80
4.20
1.20
1.40
(0.190)
(0.206)
(0.150)
(0.166)
(0.047)
(0.055)
H
Table PZ6 — Pad Layout and Configuration Information
Pin Configuration
(Top View)
ZENxxxVyyyAzzLS Devices
Pin Number
Pin Name
1
VIN
Pin Function
VIN
= Protected input to Zener diode
2
GND
GND = Ground
3
VOUT
VOUT = Zener regulated voltage output
Pin Configuration
(Top View)
Pad Dimensions
Pad Dimensions
0.94mm
(0.037”)
2 GND
2 GND
VIN 1
VIN 1
0.33mm
(0.013”)
2.21mm
2.21mm
(0.087”)
(0.087”)
3 VOUT
3 VOUT
0.56mm
(0.022”)
ZENxxxVyyyAzzYM Devices
Pin Number
Pin Name
1
VIN
Pin Function
2
GND
GND = Ground
3
VOUT
VOUT = Zener regulated voltage output
VIN
= Protected input to Zener diode
ZENxxxVyyyAzzYC Devices
Pin Number
Pin Name
1
VIN
2
GND
3
VOUT
Pin Function
VIN
= Protected input to Zener diode
GND = Ground
VOUT = Zener regulated voltage output
RoHS Compliant, ELV Compliant
2.88mm
(0.1135”)
0.94mm
(0.037”)
0.33mm
0.94mm (0.013”)
(0.037”)
0.56mm
(0.022”)
0.56mm
(0.022”)
2.88mm
(0.1135”)
0.56mm
(0.022”)
Pin Configuration
Recommended Pad
Recommended Pad
(Top View)
Pin Configuration
(Top View)
Dimensions
(mm) (mm)
Recommended
Pad Dimensions
Layout
(mm)
Recommended
Pad
Layout (mm)
3.20
2
GND
1
VIN Configuration (Top View)
Pin
3
V
2 OUT
GND
1
VIN
3
Pin Configuration (Top View)
VOUT
2
GND
Configuration
1 Pin
V
(Top View)
IN Configuration
Pin
(Top View)
3
VOUT
2
GND
1
VIN
3
VOUT
2.50 2.19
Recommended
Pad Dimensions (mm)
0.90
2.50
Recommended
Pad Layout (mm)
0.80 (2X)
3.20
0.60 (3X)
0.80 (2X)
1.20
1.00 (3X)
0.90
2.50
2.50 2.19
Recommended Pad
(2X)
Dimensions0.80
(mm)
0.60 (3X)
5.00
Recommended Pad
1.20
3.99
1.00 (3X)
(2X)
Layout 0.80
(mm)
Recommended Pad
Recommended Pad
Dimensions
(mm) (mm)
Recommended
Pad Dimensions
Layout
(mm)
Recommended
Pad
Layout (mm)
4.00 2.03
1.97
5.00
1.51
4.00 2.03
2.98
2.25
1.02 (2X)
0.51 (2X)
1.97
1.12 (2X)
3.99
0.56 (2X)
1.66
2.98
2.25
1.02 (2X)
1.51
0.51 (2X)
1.12 (2X)
1.66
TE Connectivity /// Circuit protection product catalog
0.94mm
(0.037”)
0.56 (2X)
35
4
PolyZen Devices
Polymer Protected Zener Diode
Solder Reflow and Rework Recommendation
Classification Reflow Profiles
ZENxxxVyyyAzzLS Devices
ZENxxxVyyyAzzYM Devices
ZENxxxVyyyAzzYC Devices
Profile Feature
Pb-Free Assembly
Pb-Free Assembly
Average Ramp Up Rate (TsMAX to Tp)
Preheat
3°C/ s Max
3°C/ s Max
• Temperature Min (TsMIN)
150°C
150°C
• Temperature Max (TsMAX)
200°C
200°C
• Time (ts Preheat)
60-180 s
60-180 s
217°C
Time Maintained Above:
• Temperature (TL)
217°C
• Time (tL)
60-150 s
60-150 s
Peak/Classification Temperature (Tp)
Time within 5°C of Actual Peak Temperature
260°C
250°C
20-40 s
Time (tp)
20-40 s
Average Ramp Down Rate (Tp to TL)
6°C/ s Max
3°C/ s Max
Time 25°C to Peak Temperature
8 Minutes Max
8 Minutes Max
Note: All temperatures refer to top side of the package, measured on the package body surface.
Figure PZ45
tp
Tp
Temperature
TL
Critical Zone
TL to Tp
Ramp Up
tL
Ts MAX
Ts MIN
ts
Preheat
25
Ramp Down
t 25˚C to Peak
Time
Reflow Profile
Tape and Reel Specifications for PolyZen Devices in Millimeters
Figure PZ46 — EIA Referenced Taped Component Dimensions for ZENxxxVyyyAzzLS
Devices in Millimeters (mm)
Description
ZENxxxVyyyAzzLS Devices
A0
4.35
B0
4.35
K0
2.30
8.00
4.00Note 1
0.35 ± 0.05
ø1.5 + 0.1 / -0.0
ø1.50 Min
2.00 ± 0.05Note 2
0.25 R
A
1.75 ± 0.10
R 0.3 Max
5.50 ± 0.05Note 3
B0
12.0 ± 0.3
K0
A0
0.25
A
Notes: 1. 10 sprocket hole pitch cumulative tolerance ±0.2
2. Camber in compliance with EIA 481
3. Pocket position relative to sprocket hole measured as true position of pocket, not pocket hole
36
TE Connectivity /// Circuit protection product catalog
RoHS Compliant, ELV Compliant
4
PolyZen Devices
Polymer Protected Zener Diode
Figure PZ47 — Reel Dimensions for ZENxxxVyyyAzzLS Devices in Millimeters (mm)
Description
Dimension (mm)
AMax
330
NMin
102
W1
8.4
W2
11.1
Matte Finish These Areas
Lock Feature (6 places)
NMin
ø20.0 Min.
AMax
+0.25
330.0 –4.00
+0.5
ø13.0 –0.2
102.0 Ref
2.0 +/– 0.5
Detail A
See “Detail A”
W1 (measured at hub)
W2 (measured at hub)
Figure PZ48 — EIA Referenced Taped Component Dimensions for ZENxxxVyyyAzzYM
Devices in Millimeters (mm)
SYMBOL
SPEC
SYMBOL
SPEC
A0
B0
K0
P0
P1
P2
2.90±0.10
3.55±0.10
1.27±0.10
4.00±0.10
4.00±0.10
2.00±0.05
4.35
T
E1
F
D0
D1
W
D1Max
0.25±0.02
1.75±0.10
3.50±0.05
1.55±0.05
1.00±0.10
8.00±0.30
1.0
P2
T
T2
10 pitches cumulative
tolerance on tape ±0.2 (±0.008)
P0
Cover Tape
B1
S1
K1
1mm MAX.
E1
K0
F
B0
T1
Embossment
A0
P1
D1 for components
2.0mm x 1.2mm
and larger
For Machine Reference Only
Including Draft and Radii
Concentric Around Bo
Allowable Camber to be 1mm/100mm
Noncumulative Over 250mm
100mm
D0
E2
B1Max
W
1mm MAX.
250mm
Center Lines
of Cavity
USER DIRECTION OF FEED
Figure PZ49 — Reel Dimensions for ZENxxxVyyyAzzYM Devices in Millimeters (mm)
5.0
Ø1
0.0
R2
2
13
.5
4.0±0.5
Ø60.1
Ø178±1
02
04
06
08
06
04
02
08
±0
.5
±0
3.0
H ±0.5
2±0.5
.5
±0
3.5
Ø1
0.5
1
R
1.4
R1
.9
(H+3) ±0.5
H=8mm
R0.5
120°
RoHS Compliant, ELV Compliant
TE Connectivity /// Circuit protection product catalog
37
4
PolyZen Devices
Polymer Protected Zener Diode
Figure PZ50 — EIA Referenced Taped Component Dimensions for ZENxxxVyyyAzzYC
Devices in Millimeters (mm)
Dimension
Tolerance
W
12.00
±0.10
P
8.00
±0.10
E
1.75
±0.10
F
5.50
±0.10
P2
2.00
±0.10
1.50
+0.10
-0.00
D
D1
1.50
±0.10
P0
4.00
±0.10
10P0
40.00
±0.20
±0.10
A0
4.20
B0
5.25
±0.10
K0
1.40
±0.10
t
0.24
±0.05
P0
P2
t
B
D
Item
E
F
5°
W
B0
D1
K0
B
P
A0
8°
Figure PZ51 — Reel Dimensions for ZENxxxVyyyAzzYC Devices in Millimeters (mm)
12mm±0.5
2.3±0.5
H
.5
4.0±0.5
Ø99.5±1
1
6
P. S
2.5
±0
.5
Ø330.0±1
±0
3.5
Ø1
2
3
4
5
6
7
Part Numbering System
ZEN 056V 130A
24
LS & YC & YM
Special Labeling
LS = 4.0 *4.0mm package size typical
YM = 2.5 *3.2mm package size typical
YC = 4.0 *5.0mm package size typical
VINT Max Rating (24 = 24V)
PPTC Hold Current Group (130 = 1.3A)
Zener Voltage Group (056 = 5.6V)
PolyZen Series
38
TE Connectivity /// Circuit protection product catalog
RoHS Compliant, ELV Compliant
4
PolyZen Devices
Polymer Protected Zener Diode
Part Marking System
ZENxxxVyyyAzzLS Devices
tnnn
12345
Zener Diode Voltage Rating
nnn = 056 (5.6V)
nnn = 059 (5.9V)
nnn = 065 (6.5V)
nnn = 098 (9.8V)
nnn = 134 (13.4V)
nnn = 164 (16.4V)
Batch Number
ZENxxxVyyyAzzYM Devices
Markings
VZ
Hold Current
Special Code
Part Description
0513F
5.6V
1.3A
F
ZEN056V130A16YM
0517F
5.6V
1.75A
Zener Diode Voltage RatingF
ZEN056V175A12YM
1313F
13.2V
1.3A
nnn = 056 (5.6V)
F
ZEN132V130A16YM
1317F
13.2V
1.75A
F
ZEN132V175A12YM
tnnn
1234567
Batch Number
XXXXF
ZENxxxVyyyAzzYC Devices
Markings
VZ
0513F
5.6V
XXXXF
Hold Current
052XF
5.6V
XXXXF
1.3A
2.3A
####
052XF
5.6V
2.6A
Special Code
Part Description
F
ZEN056V130A24YC
F
ZEN056V230A16YC
F
ZEN056V230A16YC
ZEN132V130A24YC
1313F
13.2V
1.3A
F
132XF
13.2V
2.3A
F
ZEN132V230A16YC
132XF
13.2V
2.6A
F
ZEN132V230A16YC
####
Last 4 digits of batch number
XXXXF
####
RoHS Compliant, ELV Compliant
TE Connectivity /// Circuit protection product catalog
39
4
PolyZen Devices
Polymer Protected Zener Diode
Notice:
Information furnished is believed to be accurate and reliable. However, users should independently evaluate the suitability of and test each product
selected for their own applications. Tyco Electronics Corporation and its affiliates in the TE Connectivity Ltd. group of companies (“TE”) reserve the right
to change or update, without notice, any information contained in this publication; to change, without notice, the design, construction, processing, or
specification of any product; and to discontinue or limit production or distribution of any product. This publication supersedes and replaces all information
previously supplied. Without express written consent by an officer of TE, TE does not authorize the use of any of its products as components in nuclear
facility applications, aerospace, or in critical life support devices or systems. TE expressly disclaims all implied warranties regarding the information
contained herein, including, but not limited to, any implied warranties of merchantability or fitness for a particular purpose. TE’s only obligations are those
in the TE Standard Terms and Conditions of Sale and in no case will TE be liable for any incidental, indirect, or consequential damages arising from the
sale, resale, use, or misuse of its products.
40
TE Connectivity /// Circuit protection product catalog
RoHS Compliant, ELV Compliant