PolyZen Devices PolyZen Devices Polymer Protected Zener Diode PolyZen devices are polymer-enhanced, precision Zener diode micro-assemblies. 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 micro-assembly 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 micro-assembly is that the Zener diode is thermally coupled to a resistively non-linear, 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. 5 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 Features * Stable Zener diode helps shield downstream electronics from overvoltage and reverse bias * Overvoltage transient suppression * Trip events shut out overvoltage and reverse bias sources * Time delayed, overvoltage trip * Analog nature of trip events helps minimize damage from upstream inductive spikes * Multi-Watt power handling capability * Minimal power dissipation requirements * Single component placement * Stable VZ vs. fault current * Time delayed, reverse bias trip * Integrated device construction * RoHS compliant Applications * DC power port protection in portable electronics * Internal overvoltage and transient suppression * DC power port protection for systems using barrel jacks for power input * DC output voltage regulation RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 33 * Tablet PCs and portable electronics 33 8/3/13 11:10 AM Figure PZ1 Typical Application Block Diagram for PolyZen Devices Power Supply Protected Electronics (External or Internal) 2 VIN 1 + PolyZen Device 3 GND VOUT RLOAD Regulated Output Protected Downstream Electronics Table PZ1 Electrical Characteristics for PolyZen Devices (Performance ratings @ 25C unless otherwise specified) VZ(V) 5 Max VINT MAX IZt (A) IHOLD @ 20C (A) RTyp () R1MAX () VINT MAX (V) IFLT MAX Test Current (A) Test Voltage (V) IFLT MAX (A) Part Number Min Typ ZEN056V130A24LS 5.45 5.60 5.75 0.10 1.30 0.12 0.16 24V 3A +10/-40 +24/-16V ZEN059V130A24LS 5.80 5.90 6.00 0.10 1.30 0.12 0.15 24V 3A +6/-40 +24/-16V ZEN065V130A24LS 6.35 6.50 6.65 0.10 1.30 0.12 0.16 24V 3A +6/-40 +24/-16V ZEN098V130A24LS 9.60 9.80 10.00 0.10 1.30 0.12 0.16 24V 3A +3.5/-40 +24/-16V ZEN132V130A24LS 13.20 13.40 13.60 0.10 1.30 0.12 0.16 24V 3A +2/-40 +24/-16V ZEN164V130A24LS 16.10 16.40 16.60 0.10 1.30 0.12 0.16 24V 3A +1.25/-40 +24/-16V ZEN056V230A16LS 5.45 5.60 5.75 0.10 2.30 0.04 0.06 16V 5A +5/-40 +16/-12V ZEN065V230A16LS 6.35 6.50 6.65 0.10 2.30 0.04 0.06 16V 5A +3.5/-40 +16/-12V ZEN098V230A16LS 9.60 9.80 10.00 0.10 2.30 0.04 0.06 16V 5A +3.5/-40 +16/-12V ZEN132V230A16LS 13.20 13.40 13.60 0.10 2.30 0.04 0.06 16V 5A +2/-40 +20/-12V ZEN056V075A48LS 5.45 5.60 5.75 0.10 0.75 0.28 0.45 48V 3A +10/-40 +48/-16V ZEN132V075A48LS 13.20 13.40 13.60 0.10 0.75 0.28 0.45 48V 3A +2/-40 +48/-16V ZEN056V115A24LS 5.45 5.60 5.75 0.10 1.15 0.15 0.18 24V 3A +10/-40 +24/-16V ZEN056V130A24CE 5.45 5.60 5.75 0.10 1.30 0.070 0.105 24V 3A +10/-40 +24/-16V ZEN056V230A16CE 5.45 5.60 5.75 0.10 2.30 0.032 0.060 16V 5A +5/-40 +16/-12V ZEN056V260A16CE 5.45 5.60 5.75 0.10 2.60 0.032 0.045 16V 5A +5/-40 +16/-12V ZEN132V130A24CE 13.20 13.40 13.65 0.10 1.30 0.070 0.105 24V 3A +3/-40 +24/-16V ZEN132V230A16CE 13.20 13.40 13.65 0.10 2.30 0.032 0.060 16V 5A +3/-40 +16/-12V ZEN132V260A16CE 13.20 13.40 13.65 0.10 2.60 0.032 0.045 16V 5A +3/-40 +16/-12V LS module height is 1.7mm typical. CE module height is 1.0mm typical. Typical operating current is 500A @ 5.0V which meets USB suspend mode requirement. Table PZ2 Definitions of Terms for PolyZen Devices VZ IZT IHOLD Zener clamping voltage measured at current IZT and 20C. 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. RTyp R1MAX 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. IFLT IFLT MAX VINT MAX IPTC IOUT Trip Event 34 Polymer PTC VIN VOUT Zener Diode GND IPTC IOUT VIN VOUT IFLT GND RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 34 8/3/13 11:10 AM PolyZen Devices Figures PZ2-PZ9 Typical Performance Curves for PolyZen Devices - LS Series Figure PZ2 Figure PZ3 VOUT Peak vs. IFLT RMS (IOUT = 0) 20.0 A B C D E F F 18.0 VOUT Peak (V) 16.0 E 14.0 12.0 D Time-to-Trip vs. IFLT RMS (IOUT = 0) 10 = ZEN056V1yyA24LS = ZEN059V130A24LS = ZEN065V130A24LS = ZEN098V130A24LS = ZEN132V130A24LS = ZEN164V130A24LS Time-to-Trip (s) 22.0 10.0 8.0 C A B 6.0 A B C D E F 1 = ZEN056V1yyA24LS = ZEN059V130A24LS = ZEN065V130A24LS = ZEN098V130A24LS = ZEN132V130A24LS = ZEN164V130A24LS F 0.1 E C D B A 4.0 2.0 0 0 1 2 3 4 5 6 7 8 9 0.01 10 0 1 2 3 4 IFLT RMS (A) Figure PZ4 6 7 8 9 10 Figure PZ5 VOUT Peak vs. IFLT RMS (IOUT = 0) 22.0 D 16.0 14.0 12.0 C 10.0 8.0 B A 6.0 5 A = ZEN056V230A16LS B = ZEN065V230A16LS C = ZEN098V230A16LS D = ZEN132V230A16LS 10 Time-to-Trip (s) 18.0 Time-to-Trip vs. IFLT RMS (IOUT = 0) 100 A = ZEN056V230A16LS B = ZEN065V230A16LS C = ZEN098V230A16LS D = ZEN132V230A16LS 20.0 VOUT Peak (V) 5 IFLT RMS (A) 1 0.1 B C D 4.0 A 2.0 0.01 0 0 1 2 3 4 5 6 7 8 9 10 0 1 2 3 4 IFLT RMS (A) Figure PZ6 0.0 B = ZENxxxV230A16LS 8 -0.4 -0.6 -0.8 C = ZENxxxV075A48LS 1 0.1 B B C -40 -30 -20 -10 0.001 0 A C -50 -40 -30 -20 -10 Figure PZ8 Figure PZ9 Temperature Effect on IHOLD (IFLT = 0) 3.5 Time-to-Trip vs. IPTC RMS (IFLT = 0) 10 A = ZENxxxV130A24LS 3.0 B = ZENxxxV230A16LS C = ZENxxxV075A48LS 2.5 Time-to-Trip (s) A 1.5 D 1.0 C = ZENxxxV075A48LS 1 D = ZENxxxV115A24LS 2.0 A = ZENxxxV1yyA24LS B = ZENxxxV230A16LS B C 0.1 0.01 B 0.5 C -20 0 20 40 Ambient Temperature (C) RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 35 0 IFLT RMS (A) IFLT RMS (A) -40 10 B = ZENxxxV230A16LS 0.01 A -1.2 -50 0.0 9 A = ZENxxxV1yyA24LS 10 C = ZENxxxV075A48LS Time-to-Trip (s) VOUT Peak (V) 7 Time-to-Trip vs. IFLT RMS (IOUT = 0) 100 A = ZENxxxV1yyA24LS -0.2 IHOLD (A) 6 Figure PZ7 VOUT Peak vs. IFLT RMS (IOUT = 0) -1.0 5 IFLT RMS (A) 60 80 100 0.001 0 5 10 15 20 25 30 35 A 40 45 IPTC RMS (A) 35 8/3/13 11:10 AM Figures PZ10-PZ17 Typical Performance Curves for PolyZen Devices - CE Series Figure PZ10 Figure PZ11 VOUTPeak vs. I FLT RMS(IOUT=0) 18.0 B 16.0 A = ZEN056V130A24CE B = ZEN132V130A24CE A = ZEN056V130A24CE B = ZEN132V130A24CE 14.0 10 12.0 Time-to-Trip (s) VOUTPeak (V) Time-to-Trip vs. I FLT RMS (IOUT=0) 10.0 8.0 A 6.0 4.0 1 B 0.1 A 2.0 0.01 0.0 0 1 2 3 4 5 6 IFLT RMS (A) 7 8 9 0 10 1 2 4 5 6 7 8 9 10 IFLT RMS (A) Figure PZ12 Figure PZ13 VOUTPeak vs. I FLT RMS(IOUT=0) 5 3 Time-to-Trip vs. I FLT RMS (IOUT=0) 18.0 B 16.0 A = ZEN056VyyyA16CE B = ZEN132VyyyA16CE A = ZEN056VyyyA16CE B = ZEN132VyyyA16CE 10 12.0 Time-to-Trip (s) VOUTPeak (V) 14.0 10.0 8.0 A 6.0 4.0 1 A B 0.1 2.0 0.0 0.01 0 1 2 3 4 5 6 IFLT RMS (A) 7 8 9 10 0 1 2 3 4 5 6 7 8 9 10 IFLT RMS (A) Figure PZ14 Figure PZ15 VOUTPeak vs. I FLT RMS (IOUT=0) Time-to-Trip vs. I FLT RMS (IOUT=0) 0.0 A = ZENxxxV130A24CE B = ZENxxxVyyyA16CE -0.4 -0.6 -0.8 -1.0 1 0.1 B 0.01 A A B -1.2 A = ZENxxxV130A24CE B = ZENxxxVyyyA16CE 10 Time-to-Trip (s) VOUTPeak (V) -0.2 0.001 -45 -35 -25 -15 -5 -45 -35 -25 -15 IFLT RMS (A) IFLT RMS (A) Figure PZ16 Figure PZ17 Time-to-Trip vs. I PTC RMS (IFLT=0) Temperature Effect on I HOLD (I FLT = 0) 10 4 C 3 1 Time-to-Trip (s) B 2.5 A = ZENxxxV130A24CE B = ZENxxxVyyyA16CE A = ZENxxxV130A24CE B = ZENxxxV230A16CE C = ZENxxxV260A16CE 3.5 I HOLD (A) -5 2 A 1.5 1 0.5 0.1 B 0.01 A 0 -40 -20 0 20 40 60 Ambient Temperature (C) 36 80 100 0.001 0 5 10 15 20 25 30 35 40 45 IPTC RMS (A) RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 36 8/3/13 11:10 AM PolyZen Devices Table PZ3 General Characteristics for PolyZen Devices Operating temperature range Storage temperature ESD withstand Diode capacitance Construction Figures PZ18-PZ22 -40 to +85C -40 to +85C 15kV 4200pF RoHS compliant Human body model Typical @ 1MHz, 1V RMS Basic Operation Examples for PolyZen Devices - LS Series Figure PZ18 Hot-Plug Response ZEN056V130A24LS vs. a 22V/120W Universal Power Supply 350 35 C 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 5 Power (Watts) 30 Voltage (V) and Current (A) A = VIN Capacitive Current Spike 100 A B B 5 50 D VOUT Peak C 0 0 0.01 0.02 0 0.03 0.04 0.05 0.06 0.07 0.08 Time (s) Figure PZ19 Figure PZ20 Typical Fault Response: ZEN059V130A24LS 24V, 6A Current Limited Source (IOUT=0) Typical Fault Response: ZEN056V1xxA24LS 20V, 3.5A Current Limited Source (IOUT=0) 20 Voltage (V) or Current (A) Voltage (V) or Current (A) 24 A A = VIN (V) 18 B = VOUT (V) 16 C = IFLT (A) 14 12 10 8 B 6 4 22 A = VIN (V) 20 B = VOUT (V) 18 C = IFLT (A) A 16 14 12 10 8 B 6 4 2 2 C 0 -0.02 0.02 0.06 0.10 0.14 C 0 0.02 0.18 0.05 0.15 Time (s) Time (s) Figure PZ21 Figure PZ22 Typical Fault Response: ZEN065V130A24LS 24V, 5.0A Current Limited Source (IOUT=0) Typical Fault Response: ZEN098V130A24LS 24V, 3.5A Current Limited Source (IOUT=0) 26 24 24 A = VIN (V) 22 B = VOUT (V) 20 C = IFLT (A) A Voltage (V) or Current (A) Voltage (V) or Current (A) 0.10 18 16 14 12 10 B 8 6 22 A = VIN (V) 20 B = VOUT (V) 18 C = IFLT (A) A 16 14 B 12 10 8 6 4 4 2 2 C 0 C 0 0 0.01 0.02 0.03 0.04 0.05 Time (s) RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 37 0.06 0.07 0.08 0.09 0.10 0 0.05 0.10 0.15 Time (s) 37 8/3/13 11:10 AM Figures PZ23-PZ30 Basic Operation Examples for PolyZen Devices - LS Series Figure PZ23 Figure PZ24 Typical Fault Response: ZEN132V130A24LS 24V, 2.0A Current Limited Source (IOUT=0) 30 A = VIN (V) B = VOUT (V) 25 Voltage (V) or Current (A) Voltage (V) or Current (A) Typical Fault Response: ZEN164V130A24LS 24V, 1.0A Current Limited Source (IOUT=0) 30 A = VIN (V) A C = IFLT (A) 20 B 15 10 5 0 C 0 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40 0.45 A C = IFLT (A) 20 B 15 10 5 0 0.50 B = VOUT (V) 25 C 0 0.10 0.20 Time (s) A = VIN (V) B = VOUT (V) Voltage (V) or Current (A) Voltage (V) or Current (A) A = VIN (V) A C = IFLT (A) 10 B 5 0 C 0 0.10 0.20 B = VOUT (V) 10 B 5 0 0.30 A C = IFLT (A) 15 C 0 0.10 0.20 Time (s) Figure PZ28 Typical Fault Response: ZEN132V230A16LS 20V, 2.0A Current Limited Source (IOUT=0) Typical Fault Response: ZEN098V230A16LS 16V, 3.5A Current Limited Source (IOUT=0) 22 A = VIN (V) 16 A 14 C = IFLT (A) 12 B 10 8 6 4 2 0.05 0.10 0.15 A B = VOUT (V) 18 C = IFLT (A) 16 B 14 12 10 8 6 4 2 C 0 A = VIN (V) 20 B = VOUT (V) Voltage (V) or Current (A) Voltage (V) or Current (A) 18 0 0.20 C 0 0.05 0.10 0.15 0.20 0.25 0.30 Time (s) Time (s) Figure PZ29 Figure PZ30 Typical Fault Response: ZEN056V075A48LS 48V, 10.0A Current Limited Source (IOUT=0) Typical Fault Response: ZEN132V075A48LS 48V, 2.0A Current Limited Source (IOUT=0) 50 50 A = VIN (V) A B = VOUT (V) 40 Voltage (V) or Current (A) Voltage (V) or Current (A) 0.30 Time (s) Figure PZ27 0 0.50 Typical Fault Response: ZEN065V230A16LS 16V, 3.5A Current Limited Source (IOUT=0) 20 15 0.40 Figure PZ26 Typical Fault Response: ZEN056V230A16LS 16V, 5.0A Current Limited Source (IOUT=0) 20 0.30 Time (s) Figure PZ25 5 5 Cont'd C = IFLT (A) 30 20 10 B A A = VIN (V) 45 B = VOUT (V) 40 C = IFLT (A) 35 30 25 20 B 15 10 5 0 C 0 0.01 0.02 Time (s) 38 0.03 0.04 0 C 0 0.02 0.04 0.06 0.08 0.10 0.12 0.14 0.16 0.18 0.20 Time (s) RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 38 8/3/13 11:10 AM PolyZen Devices Figures PZ31-PZ35 Basic Operation Examples for PolyZen Devices - CE Series Figure PZ31 Hot-Plug Response ZEN056V130A24CE vs. a 22V/120W Universal Power Supply 350 35 A= V IN Capacitive Current Spike Voltage (V) and Current (A) C 25 B= V OUT Supply Voltage Dropped by Current 300 C= CURRENT (I FLT ) D= POWER Current Pulled to GND via Diode 250 A Power (Watts) 30 200 20 D PPTC Switches to High Resistance 15 10 Output Voltage Remains Clamped Supply Voltage Returns to Normal A 100 B B 5 150 50 VOUT Peak C D 5 5 0 0 0 0.01 0.005 0.015 0.02 0.03 0.025 0.04 0.035 Time (s) Figure PZ32 Figure PZ33 Typical Fault Response: ZEN056V130A24CE 24V, 10A Current Limited Source (IOUT=0) 28 24 Typical Fault Response: ZEN056V230A16CE 16V, 5A Current Limited Source (IOUT=0) 20 A = VIN (V) B = VOUT (V) C = IOUT (A) A A = VIN (V) B = VOUT (V) C = IOUT (A) 16 A Voltage (V) or Current (A) Voltage (V) or Current (A) 20 16 12 8 B 12 8 B 4 4 C C 0 0.00 0.05 0.10 Time (s) 0.15 0 0.00 0.20 Figure PZ34 16 0.10 Time (s) 0.15 0.20 Figure PZ35 Typical Fault Response: ZEN056V260A16CE 16V, 5A Current Limited Source (IOUT=0) 20 0.05 A = VIN (V) B = VOUT (V) C = IOUT (A) 28 24 A Typical Fault Response: ZEN132V130A24CE 24V, 3A Current Limited Source (IOUT=0) A = VIN (V) B = VOUT (V) C = IOUT (A) A Voltage (V) or Current (A) Voltage (V) or Current (A) 20 12 8 B 4 B 16 12 8 4 C C 0 0.00 0.05 RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 39 0.10 Time (s) 0.15 0.20 0 0.00 0.05 0.10 Time (s) 0.15 0.20 39 8/3/13 11:10 AM Figures PZ36-PZ37 Basic Operation Examples for PolyZen Devices - CE Series Figure PZ36 Figure PZ37 Typical Fault Response: ZEN132V230A16CE 20V, 3A Current Limited Source (IOUT=0) 24 A 20 B 16 Voltage (V) or Current (A) Voltage (V) or Current (A) Typical Fault Response: ZEN132V260A16CE 20V, 3A Current Limited Source (IOUT=0) 24 A = VIN (V) B = VOUT (V) C = IOUT (A) 20 Cont'd 12 8 4 A = VIN (V) B = VOUT (V) C = IOUT (A) A B 16 12 8 4 C 0 0.00 0.05 5 0.10 Time (s) 0.15 C 0 0.00 0.20 0.05 0.10 Time (s) 0.15 0.20 Table PZ4 Packaging and Marking Information for PolyZen Devices Bag Quantity Tape & Reel Quantity Standard Package ZENxxxVyyyAzzLS Part Number - 3,000 15,000 ZENxxxVyyyAzzCE - 4,000 20,000 Table PZ5 Dimensions for PolyZen Devices in Millimeters and (Inches) ZENxxxVyyyAzzLS Devices A mm in B Min Max 3.85 4.15 (0.152) (0.163) C Min Max 3.85 4.15 (0.152) (0.163) Min Max 1.40 2.00 (0.055) (0.081) C A B ZENxxxVyyyAzzCE Devices A Min mm in 4.80 B Max 5.20 (0.189) (0.205) A C Min Max Min Max 3.80 4.20 0.80 1.20 (0.031) (0.047) (0.150) (0.165) B C 40 RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 40 8/3/13 11:10 AM PolyZen Devices Table PZ6 Pad Layout and Configuration Information for PolyZen Devices ZENxxxVyyyAzzLS Devices Pin Configuration (Top View) Pin Number Pin Name 1 VIN Pad Dimensions Pin Function VIN 0.94mm (0.037") = Protected input to Zener diode 2 GND 2 GND GND = Ground 3 VOUT VOUT = Zener regulated voltage output 0.33mm (0.013") 2.21mm (0.087") VIN 1 0.94mm (0.037") 3 VOUT 0.56mm (0.022") 2.88mm (0.1135") 0.56mm (0.022") ZENxxxVyyyAzzCE Devices 2-0.50+/-0.05 Pin Number Pin Name Pin Function VOUT VOUT = Zener regulated voltage output 3 VOUT 3.80+/-0.05 1.81+/-0.015 3 1 VIN 5 3.00+/-0.015 = Protected input to Zener diode 2-0.80+/-0.015 VIN 2-0.40+/-0.015 0.72+/-0.015 3.00+/-0.05 GND = Ground 2-1.20+/-0.05 VIN GND 1.12+/-0.05 2.21+/-0.05 1 2 2 GND 3.80+/-0.015 Solder Reflow and Rework Recommendation for PolyZen Devices Classification Reflow Profiles Profile Feature Average Ramp Up Rate (TsMAX to Tp) Preheat * Temperature Min (TsMIN) * Temperature Max (TsMAX) * Time (ts Preheat) Time Maintained Above: * Temperature (TL) * Time (tL) Peak/Classification Temperature (Tp) Time within 5C of Actual Peak Temperature Time (tp) Average Ramp Down Rate (Tp to TL) Time 25C to Peak Temperature Pb-Free Assembly 3C/ s Max 150C 200C 60-180 s 217C 60-150 s 260C 20-40 s 6C/ s Max 8 Minutes Max Note: All temperatures refer to the top side of the package, measured on the package body surface. Figure PZ38 tp Tp Critical Zone TL to Tp Ramp Up Temperature TL Ts MIN ts Preheat 25 Reflow Profile RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 41 tL Ts MAX Ramp Down t 25C to Peak Time 41 8/3/13 11:10 AM Tape and Reel Specifications for PolyZen Devices in Millimeters Figure PZ39 EIA Referenced Taped Component Dimensions for PolyZen Devices in Millimeters (mm) Description ZENxxxVyyyAzzLS Devices ZENxxxVyyyAzzCE Devices A0 4.35 4.35 B0 4.35 5.35 K0 2.30 1.35 8.00 o1.5 + 0.1 / -0.0 4.00Note 1 o1.50 Min 0.35 0.05 0.25 R 2.00 0.05Note 2 A 1.75 0.10 R 0.3 Max 5.50 0.05Note 3 B0 12.0 0.3 5 K0 A0 A 0.25 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 Figure PZ40 Reel Dimensions for PolyZen Devices in Millimeters (mm) Matte Finish These Areas Description Dimension (mm) AMax 330 NMin 102 W1 8.4 W2 11.1 Lock Feature (6 places) NMin o20.0 Min. AMax +0.25 330.0 -4.00 +0.5 o13.0 -0.2 102.0 Ref 2.0 +/- 0.5 Detail A See "Detail A" W1 (measured at hub) W2 (measured at hub) Part Numbering System for PolyZen Devices ZEN 056V 130A 24 LS & CE Special Labeling LS = Module Height of 1.7mm typical CE = Module Height of 1.0mm typical VINT Max Rating (24 = 24V) PPTC Hold Current Group (130 = 1.3A) Zener Voltage Group (056 = 5.6V) PolyZen Series 42 RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 42 8/3/13 11:10 AM ZENxxxVyyyAzzLS Devices 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) tnnn 12345 PolyZen Devices Part Marking System for PolyZen Devices Batch Number ZENxxxVyyyAzzCE Devices Markings Vz Hold Current 05613 5.6V 1.3A ##### 5 Batch Number Last 4 digits of batch number VVVII #### 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. RoHS Compliant, ELV Compliant 2013_CP_S05-PolyZen.indd 43 43 8/3/13 11:10 AM