ZEN132V175A12YM
P0641DF-1 IXBOD1-21RD Circuit Protection | Electronics Component Distributor | www.YIC-Electronics.com
ZEN132V130A24YC
ZEN132V130A24YC ໂດຍ ExceStore |ຫຸ້ນ ZEN132V130A24YC ທີ່ |www.Excestore.com
Not Your Device? Search For Manuals or Datasheets below:
File Info : application/pdf, 14 Pages, 840.97KB
Document DEVICE REPORTZEN132V130A24YCPolyZen 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 · Single component placement 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 FEATURES · Overvoltage transient suppression · Stable VZ vs. fault current · Time delayed, overvoltage trip · Time delayed, reverse bias trip · Multi-Watt power handling capability · Integrated device construction · RoHS compliant · 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 (External or Internal) Protected Electronics GND 2 VIN PolyZen + 1 Device 3 VOUT Regulated Output RLOAD Protected Downstream Electronics Table PZ1 -- Electrical Characteristics (Performance ratings @ 25°C unless otherwise specified) VZ(V) Part Number ZEN056V130A24LS ZEN059V130A24LS ZEN065V130A24LS ZEN098V130A24LS ZEN132V130A24LS ZEN164V130A24LS ZEN056V230A16LS ZEN065V230A16LS ZEN098V230A16LS ZEN132V230A16LS ZEN056V075A48LS ZEN132V075A48LS ZEN056V115A24LS NEW ZEN056V130A16YM NEW ZEN056V175A12YM NEW ZEN132V130A16YM NEW ZEN132V175A12YM NEW ZEN056V130A24YC NEW ZEN056V230A16YC NEW ZEN056V260A16YC NEW ZEN132V130A24YC NEW ZEN132V230A16YC NEW ZEN132V260A16YC Min 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 Typ 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 Max 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 IHOLD IZt @ 20°C RTyp (A) (A) () 0.10 1.30 0.12 0.10 1.30 0.12 0.10 1.30 0.12 0.10 1.30 0.12 0.10 1.30 0.12 0.10 1.30 0.12 0.10 2.30 0.04 0.10 2.30 0.04 0.10 2.30 0.04 0.10 2.30 0.04 0.10 0.75 0.28 0.10 0.75 0.28 0.10 1.15 0.15 0.10 1.30 0.110 0.10 1.75 0.050 0.10 1.30 0.110 0.10 1.75 0.050 0.10 1.30 0.110 0.10 2.30 0.040 0.10 2.60 0.040 0.10 1.30 0.110 0.10 2.30 0.040 0.10 2.60 0.040 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 500A @ 5.0V which meets USB suspend mode requirement. R1MAX () 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 VINT MAX Test VINT MAX (V) Current (A) 24 3 24 3 24 3 24 3 24 3 24 3 16 5 16 5 16 5 16 5 48 3 48 3 24 3 14 3 12 4 14 3 12 4 24 3 16 5 16 5 24 3 16 5 16 5 IFLT MAX Test IFLT MAX (A) Voltage (V) +10/-40 +24/-16 +6/-40 +24/-16 +6/-40 +24/-16 +3.5/-40 +24/-16 +2/-40 +24/-16 +1.25/-40 +24/-16 +5/-40 +16/-12 +3.5/-40 +16/-12 +3.5/-40 +16/-12 +2/-40 +20/-12 +10/-40 +48/-16 +2/-40 +48/-16 +10/-40 +24/-16 +3/-40 +16/-12 +3/-40 +12/-12 +1/-40 +20/-12 +1/-40 +20/-12 +4/-40 +24/-16 +3/-40 +16/-12 +3/-40 +16/-12 +1/-40 +24/-16 +1/-40 +20/-12 +1/-40 +20/-12 Table PZ2 -- Definition of Terms VZ IZT IHOLD RTyp R1MAX IFLT IFLT MAX VINT MAX IPTC IOUT Trip Event 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. 28 TE Connectivity /// Circuit protection product catalog Polymer PTC VIN Zener Diode VOUT GND IPTC VIN IFLT IOUT VOUT GND RoHS Compliant, ELV Compliant 4 PolyZen Devices Polymer Protected Zener Diode Figures PZ2-PZ9 -- Typical Performance Curves for PolyZen Devices - LS Series VVOOUUVVTTOOUUPPTTeeaaPPkkeeaa((kkVV))((VV)) Figure PZ2 222.0.0 2222002..00..00 12218008..00..00 11116886..00..00 11114646..00..00 11112424..00..00 11110220..00..00 18108.0.00..00 6868..00..00 4646..00..00 2424..00..00 22.00.00 0000 00 VVVVOOOOUUUUTTTTPPPPeeeeaaaakkkkvvvvssss....IIFFIIFFLLTTLLTTRRRRMMMMSSSS((II((OOIIOOUUUUTTTT====0000)))) FF FF EE EE DD DD AA==ZZEENN005566VV11yyyAA2244LLSS BABA===ZZZEEENNN0005559696VVV1113y3y0y0AAAA22224444LLLLSSSS CBCB===ZZZEEENNN0006565959VVV111333000AAA222444LLLSSS DCDC===ZZZEEENNN00096968585VVV111333000AAA222444LLLSSS EDED===ZZZEEENNN101039392828VVV111333000AAA222444LLLSSS FEFE===ZZZEEENNN11163634242VVV111333000AAA222444LLLSSS FF==ZZEENN116644VV113300AA2244LLSS CC CC BB BB AA AA 11 22 33 44 55 66 77 88 99 1100 11 22 33 44IFILFTLTRRM5M5SS(A(A) )66 77 88 99 1100 IFILFTLTRRMMSS(A(A)) Figure PZ4 VVOOUUVVTTOOUUPPTTeeaaPPkkeeaa((kkVV))((VV)) 222.0.0 2222002..00..00 12218008..00..00 11116886..00..00 11114646..00..00 11112424..00..00 11110220..00..00 18108.0.00..00 6868..00..00 4646..00..00 2424..00..00 22.00.00 0000 11 00 11 0.00.0 Figure PZ6 -0-.02.2 0.00.0 -0-.04.4 -0-.02.2 -0-.06.6 -0-.04.4 VVVVOOOOUUUUTTTTPPPPeeeeaaaakkkkvvvvssss....IIFFIIFFLLTTLLTTRRRRMMMMSSSS((II((OOIIOOUUUUTTTT====0000)))) AA==ZZEENN005566VV223300AA1166LLSS BABA===ZZZEEENNN0006565656VVV222333000AAA111666LLLSSS DD CBCB===ZZZEEENNN00096968585VVV222333000AAA111666LLLSSS DD DCDC===ZZZEEENNN010193938282VVV222333000AAA111666LLLSSS DD==ZZEENN113322VV223300AA1166LLSS CC CC BB BB AA AA 22 33 44 55 66 77 88 99 1100 22VVOOUUT3T3PPeeaakk44vIFvIsLFTs.LT.RIFRIMLF5MTL5STRSR(MA(MA)S)6S6(I(OIOUUT7T7==00) ) 88 99 1100 IFILFTLTRRMMSS(A(A)) AA==ZEZENNxxxVxV1y1yAyA242L4SLS VVOOUUTTPPeeaakkvvss. .IFILFTLTRRMMSS(BI(BOI=OU=ZUTEZT=EN=Nx0x0)xV)xV23203A0A161L6SLS CC==ZEZENNxxxVxV07057A5A484L8SLS AA==ZEZNENxxxxxVx1Vy1yyAyA242L4SLS BB==ZEZNENxxxxxVx2V3203A0A161L6SLS CC==ZEZNENxxxxxVx0V7057A5A484L8SLS VVOOUUTT PPeeaakkVV((OOUUVV))TT PPeeaakk ((VV)) -0-.08.8 -0-.06.6 -1-.10.0 AA -0-.08.8 BB CC -1-.12.2 -1-.10-.50-050 -4-040 AA -3-030 -2-020 -1-010 00 BB ICFICLFTLTRRMMSS(A(A) ) -1-.12.2 -5-050 -4-040 -3-030 -2-020 -1-010 00 IFILFTLTRRMMSS(A(A) ) Figure PZ8 TTeemmppeeraratuturereEEfffefeccttoonnIHIHOOLDLD(I(FILFTLT==00) ) IIHHOOLLDD ((AA)) IIHHOOLLDD ((AA)) 3.35.5 3.30.0 3.35.5 2.25.5 3.30.0 2.20.0 2.25.5 1.15.5 2.20.0 1.10.0 1.15.5 0.05.5 AA==ZEZENNxxxVxV13103A0A242L4SLS TTeemBmBppeeraratuturereEEfffefecct toonnIHIHOBOLBDL=D=(ZI(FEZILEFNTLNxT=xx=0VxV02)32)03A0A161L6SLS CC==ZEZENNxxxVxV07057A5A484L8SLS ADAD====ZZEEZZNEENNNxxxxxxxxVVxx1VV13110531AA05AA224422LL44SSLLSS BB AA BB==ZEZNENxxxxxVx2V3203A0A161L6SLS CC==ZEZNENxxxxxVx0V7057A5A484L8SLS DD==ZEZNENxxxxxVx1V151A5A242L4SLS DD AA CC DD 1.10.0 0.00.0 CC -4-040 -2-020 00 2020 4040 6060 8080 1010 0 0.05.5 AAmmbbieiennt tTeTemmppeeraratuturere(°(C°C) ) 0.00.0 -4-040 -2-020 00 2020 4040 6060 8080 101000 AAmmbbieinent tTeTmemppereartauturere(°(C°C) ) RoHS Compliant, ELV Compliant TTiimTTmiiee--mmtteeoo----ttTToorr--iiTTpprrii((sspp))((ss)) Figure PZ3 1100 1100 11 11 00.1.1 00.1.1 TTTTiimmiimmeeee--tt--ttoooo--TT--TTrrrriippiippvvvvssss....IIFFIIFFLLTTLLTTRRRRMMMMSSSS((II((OOIIOOUUUUTTTT====0000)))) AA==ZZEENN005566VV11yyyAA2244LLSS BAAB===ZZZEEENNN0005559669VVV1113yy30y0AAAA22224444LLLLSSSS CBBC===ZZZEEENNN0006556995VVV111333000AAA222444LLLSSS DCCD===ZZZEEENNN00096698558VVV111333000AAA222444LLLSSS EDDE===ZZZEEENNN100139932882VVV111333000AAA222444LLLSSS FEEF===ZZZEEENNN11163364224VVV111333000AAA222444LLLSSS FF==ZZEENN116644VV113300AA2244LLSS FF FF EE EE DD CC BB DD CC BB AA AA 00.0.011 00.0.01100 11 00 11 Figure PZ5 11000 11000 1100 1100 22 33 44 55 66 77 88 99 1100 22 33 44IFILFTLTRRM5M5SS(A(A) )66 77 88 99 1100 IFILFTLTRRMMSS(A(A)) TTTTiimmiimmeeee--tt--ttoooo--TT--TTrrrriippiippvvvvssss....IIFFIIFFLLTTLLTTRRRRMMMMSSSS((II((OOIIOOUUUUTTTT====0000)))) AA==ZZEENN005566VV223300AA1166LLSS BAAB===ZZZEEENNN0006556665VVV222333000AAA111666LLLSSS CBBC===ZZZEEENNN00096698558VVV222333000AAA111666LLLSSS DCCD===ZZZEEENNN010193938282VVV222333000AAA111666LLLSSS DD==ZZEENN113322VV223300AA1166LLSS TTiimTTmiiee--mmtteeoo----ttTToorr--iiTTpprrii((sspp))((ss)) 11 11 BB 00.1.1 00.1.1 DD CBCB DD CC AA AA 00.0.011 00.0.01100 11 22 33 44 55 66 77 88 99 1100 00 11 2T2Timimee-3t-3oto-T-Trirp4i4pIFvILFvTsLTs.RR.IMF5MIL5FSTLST(RA(RAM)M)6S6S(I(OIOU7UT7T==00) )88 99 1100 1010 0 IFILFTLTRRMMSS(A(A)) Figure PZ7 AA==ZEZENNxxxVxV1y1yAyA242L4SLS 1010 101000 TTimimee-t-oto-T-Trirpipvvss. .IFILFTLTRRBMBM=S=ZSEZ(IEN(OINxOUxUTxVTx=V2=320030)A0)A161L6SLS CC==ZEZENNxxxVxV07057A5A484L8SLS AA==ZEZNENxxxxxVx1Vy1yyAyA242L4SLS 11 BB==ZEZNENxxxxxVx2V3203A0A161L6SLS 1010 CC==ZEZNENxxxxxVx0V7057A5A484L8SLS TTiimmee--ttoo--TTrrTTiippmm((eess--))ttoo--TTrriipp ((ss)) 0.01.1 11 0.00.101 BB 0.01.1 AA 0.00.0101 CC BB 0.00.101-5-050 -4-040 -3-030 -2-020 -1-010 00 AA CC 0.00.00101 IFILFTLTRRMMSS(A(A) ) -5-050 -4-040 -3-030 -2-020 -1-010 00 IFILFTLTRRMMSS(A(A) ) Figure PZ9 1010 101 01 0.01.11 TTimimee-t-oto-T-Trirpipvvss. .IPITPCTCRRMMSS(I(FILFTLT==00) ) AA==ZEZENNxxxVxV1y1yAyA242L4SLS TTimimee-t-oto-T-Trirpipvvss. .IPITPCTCRRMMSBSB(=I(=FZILFEZTLENT=Nx=x0x0)Vx)V23203A0A161L6SLS CC==ZEZENNxxxVxV07057A5A484L8SLS AA==ZEZNENxxxxxVx1Vy1yyAyA242L4SLS BB==ZEZNENxxxxxVx2V3203A0A161L6SLS CC==ZEZNENxxxxxVx0V7057A5A484L8SLS TTiimmee--ttoo--TTrrTTiippmm((eess--))ttoo--TTrriipp ((ss)) 00.00.0.10.11 BB 00.00.0.00.10011 00 0.00.00101 00 CC AA BB 55 1010 1515 2020 2525 3030 3535 4040 4545 IPITPCTCRRMMSS(A(A) ) CC AA 55 1010 1515 2020 2525 3030 3535 4040 4545 IPITPCTCRRMMSS(A(A) ) TE Connectivity /// Circuit protection product catalog 29 4 PolyZen Devices Polymer Protected Zener Diode Figures PZ10-PZ15 -- Typical Performance Curves for PolyZen Devices - YM Series VOUTVOPUeTakPe(aVk) (V) VOUTVOPUeTakPe(aVk) (V) Figure PZ10 18.0 1168..00 1146..00 1124..00 1102..00 180..00 68..00 46..00 24..00 02..00 0 0.0 0 Figure PZ12 0.0 -0.20 -0.42 -0.64 -0.86 --01.08 -1.20 -1.42 -1.64 -1.86 --21.08 -40 -2.0 -40 Figure PZ14 3 2.5 3 2 2.5 1.5 VOUT Peak vs. IFLT RMS (IOUT = 0) VOUT Peak vs. IFLT RMS (IOUT = 0) B C A = ZEN056V1yyAzzYM B C BA == ZZEENN103526VV113y0yAAz1z6YYMM CB == ZZEENN113322VV117350AA1126YYMM C = ZEN132V175A12YM A A 1 2 3 4 5 6 7 8 1 2 3 IFLT R4MS (A) 5 6 7 8 IFLT RMS (A) VOUT Peak vs. IFLT RMS (IOUT = 0) VOUT Peak vs. IFLT RMS (IOUT = 0) A = ZEN056V130A16YM BA == ZZEENNx0x5x6VV11y3y0AAz1z6YYMM B = ZENxxxV1yyAzzYM B B A A -30 -20 -10 0 -30 IFLT R-2M0S (A) -10 0 Temperature EIFfLfTeRcMt oSn(AI)HOLD (IFLT = 0) A = ZENxxxV130A16YM Temperature Effect on IHOBL=D Z(EIFNLxTx=xV017)5A12YM A = ZENxxxV130A16YM B = ZENxxxV175A12YM IHOLD (A) IHOLD (A) 2 1 A 1.5 B 0.5 1 0 -40 -20 0.5 0 20 40 60 Ambient Temperature (°C) A 80 B 100 Figure PZ11 100 100 10 10 1 1 Time-to-Trip vs. IFLT RMS (IOUT = 0) Time-to-Trip vs. IFLT RMS (IOUT = 0) A = ZEN056V130A16YM BA == ZZEENN005566VV117350AA1126YYMM CB == ZZEENN103526VV113705AA1162YYMM DC == ZZEENN113322VV117350AA1126YYMM D = ZEN132V175A12YM TimTei-tmoe--Ttrio-pT(ris)p (s) B 0.1 C B 0.1 C 0.01 0.0 0.5 1.0 1.5 2.0 2.5 3.0 0.01 0.0 0.5 1.0 1.5 IFLT R2M.0S (A) 2.5 3.0 IFLT RMS (A) Figure PZ13 100 Time-to-Trip vs. IFLT RMS (IOUT = 0) Time-to-Trip vs. IFLT RMS (IOUT = 0) 100 A = ZEN056V130A16YM 10 BA == ZZEENN103526VV113300AA1166YYMM CB == ZZEENNx1x3x2VV117350AA1126YYMM 10 C = ZENxxxV175A12YM 1 1 A A D D 3.5 4.0 3.5 4.0 C CB B TimTei-tmoe--Ttrio-pT(ris)p (s) 0.1 0.1 A 0.01 A 0.01 0.001 -40 0.001 -40 Figure PZ15 100 B 10 A 100 1 B 10 A 0.1 -30 -20 -10 0 -30 IFLT R-M20S (A) -10 0 IFLT RMS (A) Time-to-Trip vs. IPTC RMS (IFLT = 0) A = ZENxxxV130A16YM Time-to-Trip vs. IPTC RMBS=(ZIFELNTx=xx0V1)75A12YM A = ZENxxxV130A16YM B = ZENxxxV175A12YM Time-to-TripTi(s)me-to-Trip (s) 1 0.01 0.1 0.001 0 0.01 10 20 30 40 IPTC RMS (A) 0 0.001 Figures PZ16-PZ21 -- Typical Performance -40 -20 VOU0 TAPmebaiken2vt0sT.eImFLpTeRra4Mt0uSre((I°OCU)T60= 0) 80 100 Curves 0 for 10 20 30 PolyZeTimne-Dto-eTrivpIPivTCcsR.eIMFLsST (RA-M) SY(CIOUTS= e0)ries 40 18.0 100 B 16.0 A = ZEN056VyyyAzzYC A = ZEN056V130A24YC Figure PZ16 14.0 18.0 12.0 16.0 10.0 C VOUT Peak vs. IFLT RMSB C (==IOZZUEETNN=1133022VV) 213yy0AA1264YYCC B C A = ZEN056VyyyAzzYC B = ZEN132V130A24YC Figure PZ17 10 100 Time-to-Trip vs. IFLT RMSB C ==(IOZZEEUNNT01=35260VV)123y0yAA1264YYCC D = ZEN132V2yyA16YC A = ZEN056V130A24YC B = ZEN132V130A24YC 14.0 8.0 C = ZEN132V2yyA16YC 1 10 D A C = ZEN056V2yyA16YC 12.0 6.0 A D = ZEN132V2yyA16YC B C Time-to-TripTi(s)me-to-Trip (s) VOUT Peak (V)OUT Peak (V) 10.0 4.0 8.0 2.0 A 6.0 0.0 4.0 0 1 2 3 4 5 6 7 8 0.1 1 D A B C 0.01 0.10.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 2.0 IFLT RMS (A) IFLT RMS (A) 0.0 0 1 2 3 4 5 6 7 8 IFLT RMS (A) 0.01 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 IFLT RMS (A) 30 TE Connectivity /// Circuit protection product catalog RoHS Compliant, ELV Compliant 4 PolyZen Devices Polymer Protected Zener Diode Figures PZ16-PZ21 -- Typical Performance Curves for PolyZen Devices - YC Series (Cont'd) VOUT Peak (V) Figure PZ18 0.0 -0.2 -0.4 -0.6 -0.8 -1.0 -1.2 -40 VOUT Peak vs. IFLT RMS (IOUT = 0) A = ZEN056V130A24YC B = ZEN056V2yyA16YC C = ZEN132V130A24YC D = ZEN132V2yyA16YC B A -30 -20 -10 IFLT RMS (A) C D 0 Figure PZ20 4 3.5 3 2.5 Temperature Effect on IHOLD (IFLT = 0) A = ZENxxxV130A24YC B = ZENxxxV230A16YC C = ZENxxxV260A16YC IHOLD (A) 2 1.5 C 1 B A 0.5 0 -40 -20 0 20 40 60 Ambient Temperature (°C) 80 100 Figure PZ19 Time-to-Trip vs. IFLT RMS (IOUT = 0) 100 A = ZEN056V130A24YC 10 B = ZEN056V2yyA16YC C = ZEN132V130A24YC D = ZEN132V2yyA16YC 1 0.1 D C B Time-to-Trip (s) 0.01 A 0.001 -40 -30 -20 -10 0 IFLT RMS (A) Figure PZ21 100 B 10 A Time-to-Trip vs. IPTC RMS (IFLT = 0) A = ZENxxxV130A24YC B = ZENxxxV2yyA16YC 1 Time-to-Trip (s) 0.1 0.01 0.001 0 10 20 30 40 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 35 C 30 25 20 D 15 10 A 5 B 0 0 Capacitive Current Spike Current Pulled to GND via Diode Hot-Plug Response ZEN056V130A24LS vs. a 22V/120W Universal Power Supply Supply Voltage Dropped by Current Supply Voltage Returns to Normal A 350 A = VIN B = VOUT 300 C = CURRENT (IFLT) D = POWER 250 200 VOUT Peak 0.01 0.02 PPTC Switches to High Resistance D C 0.03 0.04 0.05 Time (s) Output Voltage Remains Clamped 0.06 0.07 150 100 B 50 0 0.08 Voltage (V) and Current (A) Power (Watts) RoHS Compliant, ELV Compliant TE Connectivity /// Circuit protection product catalog 31 4 PolyZen Devices PolymT2y0peVTic2ry,a0p3lVP.iF5c,aAr3luo.CF5ltaAutRureCreletsucnRprtrteoeLesnnipsmtdoeLin:tiZsemZeEdi:NetSZe0onEd5uN6Ser0Vcor5e1u6xr(DVcIxOe1AUixT2(oIx=4OA0LUd)T2S=4e0L)S TypTicyapliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ0E5N90V5193V01A3204AL2S4LS 24V2, 46VA, C6AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) 20 20 24 24 18 18A = VAIN=(VVT)IyN p(VTi)cyapliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ0E5N60V516xVx1Ax2x4AL2SA4LSA 22 22A = VAIN=(VTV)yINp(VTic)yapliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ0E5N90V5193V01A32A04AL2SA4LS Figures PZ22-PZ34 -- Basic Operation Examples for PolyZen Devices - LS Series 2106 184 162 Figu21r040e 11882 1126600 118448 2211111111111121P00886488646426420008CCCAABBBABZ==========2IIIVVVVVCCCAABBBVVABFFFIOIOO3LLLNNIONTTTUUU========U==((TTT((((TVVAAAVIIIVVVVV(((TVV(T))FFFVVV))))VIOIOOIOLLL22yNNN2y)))TTTUUU)U00p((TTT0((((TpVVVAAAVV(((T(iTV))iVVV)V)))cc22y2,,y))),)aa00p033p3llVVV..ii.F55ccF5,,,aAAaA333lulu...CCF55FCl5lttaAAuuaAuRuRurrrCCrrCelrleeettesuuusnnRnRprrprttrrtreoeoeeeLLssLnnnnniippismmsmtttooeeLLLiin:ni:tttiiiZseesmmZmeeeEddEdii:i:NttNtSSZSZeee00ooEddEod55uuNNu6SSS6rrr0V0ccVoooc55ee1euuu166xrrxr(((VVccIIxcIxOOOeee1A1AUUUxxTT2(((T2IIx==Ix=4OOO4A00A0LUUUL))TT2)ST2SAABA===44000LL)))SSAABA 20 24 18 22 20B 221428CA = = = VBOU=T V(VO2)UT4(VV2), 46VA, IVCAFILNT==((VAIV)F)ILNT (A) (V) C6AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0)(Cont'd) AA Figure 16 20 16 20B = PZ24 14 211482 14 211482C = 211260 211260A = 2120844 2120844B = 1126822 1126822CA == IVCBFOLTU==T(TAIV(FVy)OL2)TUpT4(TiA(cVVy)a2),pl46iFcVAa, luC6FlAutarRuCreelutnsrRtpreeoLnsinmtpsoLeitin:emZsdeEit:SNeZod0Eu5SNr9co0Veu51r(93cIVO0eU1AT(3I=2O004UA)LT=2S04)LS VAIN=(VTV)yINp(VTi)cyaplicFaluFltaRuletsRpeosnpsoen: sZeE:NZ0E5N90V5193V01A32A04AL2AS4LS VBOU=T V(VO)2UT4(VV)2, 46VA, C6AurCreunrtreLnimt LitimeditSeoduSroceur(cIOeU(TI=O0U)T=0) ICVAFLINT==((AVIVF))ILNT ((VA)) BA BA 1124600 1124600B = VBOU=T V(VO)UT (V) 116226 116226C = ICFLT=(AIF)LT (A) 114004 114004 1822-0.012822-0.02 0.02 0.02 1600 1600 0.06 0.06 0.10 0.10 TimeTi(ms)e (s) 0.14 0.14 BB CC 0.18 0.18 CB BC 48-0.0248-0.02 0.02 0.02 0.06 0.06 0.10 0.10 0.14 0.14 0.18 0.18 26 26 TimeTi(ms)e (s) BB 04 04 CC 2-0.022-0.02 T0.y02pTi0c.y0a2pliFcalu0Fl.t0a6Ru0el.t0s6Rpeosnps0oe.1n:0Zs0eE.1:N0Z0E6N500V.6114530V0.11A43204AL2S04.1L8S0.18 2226420-0.022226420-AB0.0==2VVABIONU==(TVVV(T)V0IO22yN.)U044p(T2VVV(Ti0)Vc22.y,,)0a44p255lVV..iF00c,,aAA55lu..CC0F00l.t0aAAuu6Rurr0CCrrel.eet0suu6nnRpTrrTttrrieoimeemLLsnnneiipTeTsmmtti0oi(em(ms.LLs1iin:)tt)0eiieZseemm0(e(Edd.ss1ii:N))0ttSSZee0ooEdd6uuN5SSrr0V0ccoo.6ee11uu543rr((V0ccII0OO.ee11AUU43TT2((II0==4OOA00LUU))TT2SC==04.001L8))SAC0.18A 118248 118248C = ICFLT=(AIF)LT (A) 116026 116026 BB CC 114004.02114040.02 0.05 0.05 0.10 0.10 0.15 0.15 1822 1822 16000.0216000.02 TimeTi(ms)e (s) 0.05 0.05 0.10 0.10 BC BC 0.15 0.15 48 48 26 26 TimeTi(ms)e (s) BB CC 04 04 0.02 0.02 TypTicyapliFca0lu.0Fl5ta0Ru.0el5tsRpeosnpsoen: ZseE:NZ0E09.N1800V09.11830V01A3204AL2S4LS 0.15 0.15 22 00 24V2, 43V.5,A3.C5AurCreunrTtriemLnieTmti(mLsit)ieemd(sit)SeoduSrcoeur(cIOeUT(CI=O0U)TC=0) 240.02240.02 22 22A = 20 20B = VVABIONU==(TVTVV()2VyION)4Up(TVVTi(c)2Vy,a)4p3lV.iF5c,aA30lu..CF05lt5aAu0Rur.C0rele5tsunRprTtreoieLmsnnipsemTtoei(mLin:sti)ZesemeEd(si:Nt)SZe0oEd09u.N18Sr00Vco09e1.u1830r(VcI0Oe1AU3T2(I0=4OA0LU)T2S=40L)SA 0.A15 0.15 VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) Figu2221r6408e 2221P6408CAZ==2IVCAFI5LNT==((VAIVT)F)ILyNT p((VATi))cyapliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ0E6N50V6153V01A3204AL2S4LSA A 2126 221604 211482 211260 2120846 1126824 2126B 221604C 211482A 22111112220868642064CBA = = = = = = VBOU=T V(VO2)U4T V(V2,) 45V.0,A5.C0AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0) ICFLT=(AIF)LT (A) TypTicyaplicFaluFltaRuletsRpeosnpsoen: sZeE:NZ0E6N50V6153V01A3204AL2S4LS VAIN=(VV)IN2(4VV) 2, 45V.0,A5.C0AurCreunrtreLnimt LitimeditSeoduSroceur(cIOeU(TI=O0U)T=0)A VBOU=T V(VO)UT (V) ICVAFLINT==((AVIVF))ILNT ((VA)) B A A B A 1124602 1124602B = VBOU=T V(VO)UT (V) 128240 128240C = ICFLT=(AIF)LT (A) 116028 116028 BB CC 146 0 146 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 10 Figure 24 24 P2128Z21228CA6== 16 20 16 20B = 14 211482 14 211482C = 211260 211260A = 2120844 2120844B = IVCAFILNT==((VTAIV)Fy)ILNTp((VTiAc)y)apliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ0E9N80V9183V01A3204AL2S4LSA VBOU=T V(2VO)4UTV(2V, )43V.5,A3.C5AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0) ICFLT=(AIF)LT (A) TypTicyaplicFaluFltaRuletsRpeosnpsoen: sZeE:NZ0E9N80V9183V01A3204AL2S4LSAB VAIN=(VV)2IN4(VV)2, 43V.5,A3.C5AurCreunrtreLnimt LitimeditSeoduSroceur(cIOeU(TI=O0U)T=0) VBOU=T V(VO)UT (V) A AB 1126822 1126822CA == ICVAFLINT==((AVIVF))ILNT ((VA)) BA BA 1124600 1124600B = VBOU=T V(VO)UT (V) 118248 118248C = ICFLT=(AIF)LT (A) 116026 116026 CB CB 114040 11404 0 0.05 0.05 0.10 0.10 0.15 0.15 124 124 88 TimeTi(ms)e (s) BC CB 1822 1822 TimeTi(ms)e (s) CB CB 102 102 6 10 0 6 10 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 44 88 TimeTi(ms)e (s) BB 16000 1600 0 48 48 0.05 0.05 0.10 0.10 TimeTi(ms)e (s) 0.15 0.15 22 66 CC 26 26 CC 00 4 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 04 0 04 0 0.05 0.05 0.10 0.10 0.15 0.15 22 TypTicyapliFcaluFltaRueltsRpTieomsnepTsio(emsn:)eZs(eEs:N) Z1E3N21V3123V01A3204AL2S4LSC C 22 TypTicyapliFcaluFltaRueltsRpTeoimsnpesToei(msn:)eZseE(s:N)Z1E6N41V6143V01A3204AL2S4LSC C Figure PZ27 0 0 0 0 0.01 0.02104.0V22,04.20V.200,.0A23.0C0.0Au30r.Cr0e4un0r.t0r4e0Ln.i0mt5 0Li.t0iem50d.0it6Se0od.0u60Sr.0co7eu0r.(0cI7O0e.U0T(8I=0O0.U0)8T0=.009)0.090.10 0.10 30 30 A = VAIN=(VVT)IyN p(VTi)cyapliFcaluFltaRueltsRpTeoimsnpeTsoie(msn:)eZse(Es:N)Z1E3N21V3123V01A3204AL2S4LS 25 25B = VBOU=T V(VO2)U4T V(V2,) 42V.0,A2.C0AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0)A A 30 20 25 3105 20 213500 30C A 2250B 3105C 20A 21350B = = = = = = IVCAFILNT==((VAIVT)F)ILyNT p((VATi))cyapliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ1E3N21V3123V01A3204AL2S4LS IVCBFOLTU==T(AIV(FV)OL2)TU4T(AV(V)2,) 42V.0,A2.C0AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0)AB VVABIONU==(TVVV(T)VION2y)U(T4pV(TV)iVc2y),a4p2lVi.cF0,aA2lu.FC0ltaAuRurCrleteusnRprtreoesLnnpismtoeLni:tisZmeeEdi:NtSZe1Eod3NuS2r1Voc3eu123r(VcI0Oe1AU3(T2I0=O4A0UL)T2S=40LA)S B A B AB 15 15CA == ICVAFLINT==((AVIVF))ILNT ((VA)) 00 Figure P30Z032080 24V2, 41V.0,A10..C005Au0r.Cr0e5unrtreLnimt LitiemditSeod0u.1Sr0co0e.u10r(cIOeUT(I=O0U)T=0) 0.15 0.15 A = VAIN=(VTV)yINp(VTic)yapliFcaluFltaRueltsRpTeoimsnpseToei(mn:s)ZeseE(s:N)Z1E6N41V6143V01A3204AL2S4LS 25 25B = VBOU=T V(2VO)4UTV(2V, )41V.0,A1.C0AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0) A A 30 20 25 3105 20 213500 30C A 2250B 3105C 20A 21350B = = = = = = IIVVCCABFFIOLLNTTU====(T((VTAAIIVV()FF2Vy))IOLLN)TT4Up(T((VVTiAA(c)2Vy,))a)4p1lV.iF0c,aA1lu.CF0ltaAuRurCreletsunRprtreoeLsnnipsmtoeLin:tiZsemeEdi:NtSZe1oEd6uN4Sr1Vco6e1u43r(VcI0Oe1AU3T2(I0=4OA0LU)T2S=40L)SAB VVABIONU==(TVTVV()V2yION)U4p(TVTVi()cV2y,)a4p1lVi.cF0,aA1lu.FC0ltaAuRurCrleteusnRprtreoesLnnpismtoeLni:tisZmeeEdi:NtSZe1Eod6NuS4r1Voc6eu143r(VcI0Oe1AU3(T2I0=O4A0UL)T2S=40L)SAB AB B A 15 15CA == ICVAFLINT==((AVIVF))ILNT ((VA)) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) 22055 22055B = VBOU=T V(VO)UT (V) AA 10 10C = ICFLT=(AIF)LT (A) 12050 12050 CB CB 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 22055 22055B = VBOU=T V(VO)UT (V) 10 10C = ICFLT=(AIF)LT (A) 12050 12050 50 50 0.10 0.10 0.20 0.20 0.30 0.30 0.40 0.40 BA BA CC BB 0.50 0.50 1105 1105 TimeTi(ms)e (s) CB CB 00 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 0.50 150 150 TimeTi(ms)e (s) 1105 1105 00 00 150 150 0.10 0.10 TimeTi(ms)e (s) 0.20 0.20 0.30 0.30 TimeTi(ms)e (s) 0.40 0.40 CC 0.50 0.50 VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVoln)toa(rgA)eC (urVr)eonrt (CAu)rrent (A) VoltageV(olV)taogreC(uVr)rVeoolrnttaC(guAer)r(VeVon)lto(argA)eC (urVr)eonrt (CAu)rrent (A) CC Figur05e0 P05 Z0 02.095 0.T05y0.p1T0icy0a.p1l0i0Fc.1a5lu0Fl.t1a50Ru.2el0ts0Rp.2eo00sn.2ps5oe0n:.2Zs50eE.3:N0Z00E.35N006.30V552063.3V0502A.4301006A.L401S0.645LS0.450.50 0.50 200 0200 0 16V1, 65V.0,A5.C0AurCreunTrtrimeLneiTmti(msLi)teiem(dsi)tSeoduSrcoeur(cIOeUT(I=O0U)T=0)C C 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 20 A B 20 = = VVABIONU==(TVVV(T)VIO1yN)U6p(TVV(Ti)Vc1y,)a6p5lV.iF0c,aA5lu.CF0ltaAuRurCreletsunRprTtreoiemLsnnipeTsmtoie(mLsin:t)ieZseme(Edsi:N)tSZe0oEd5uN6Sr0Vco5e2u63r(VcI0Oe2AU3T1(I0=6OA0LU)T1S=60LA)S A 15 15C A = = IVCAFILNT==((VAIVT)F)ILyNT p((VATi))cyapliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ0E5N60V5263V02A3106AL1S6LS 211050 20 B 211050C A 20B = = IVCBFOLTU==T(AIV(FV)OL1)TU6T(AV(V)1,) 65V.0,A5.C0AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0A) = = VVABIONU==(TVVV(T)VION1y)U(T6pV(TV)iVc1y),a6p5lVi.cF0,aA5lu.FC0ltaAuRurCrleteusnRprtreoesLnnpismtoeLni:tisZmeeEdi:NtSZe0Eod5NuS6r0Voc5eu263r(VcI0Oe2AU3(T1I0=O6A0UL)T1S=60LAB)S A AB 11550 11550CA == ICVAFLINT==((AVIVF))ILNT ((VA)) B = VBOU=T V(VO)UT (V) 15 15C = ICFLT=(AIF)LT (A) 1500 1500 00 0.10 0.10 0.20 0.20 AA BB CC 0.30 0.30 10 10 50 0 50 0 TimeTi(ms)e (s) 0.10 0.10 0.20 0.20 CB CB 0.30 0.30 TimeTi(ms)e (s) BB Figure P05Z0 30500 CC Ty0p.1Ti0cya0p.l1i0FcaluFltaR0u.2elt0sR0p.2eo0snpsoen: Zse0E.:3N0Z00E6.3N500V6253V002A.4310060AL.41S06LS 0.50 0.50 200 0200 0 16V1, 63V.5,A3.C5AurCreunTrtrimeLneiTmti(msLi)teiem(dsi)tSeoduSrcoeur(cIOeUT(I=O0U)T=0) C C 0.10 0.10 0.20 0.20 0.30 0.30 0.40 0.40 0.50 0.50 20 A B 20 = = VVABIONU==(TVTVV()1VyION)6Up(TVVTi(c)1Vy,a)6p3lV.iF5c,aA3lu.CF5ltaAuRurCreletsunRprTtreoiemLsnnipeTsmtoie(mLsin:t)ieZseme(Edsi:N)tSZe0oEd6uN5Sr0Vco6e2u53r(VcI0Oe2AU3T1(I0=6OA0LU)T1S=60L)SA A 15 15C A = = IVCAFILNT==((VTAIV)Fy)ILNTp((VTiAc)y)apliFcaluFltaRueltsRpeosnpsoen: ZseE:NZ0E6N50V6253V02A3106AL1S6LS 211050 20 B 211050C A 20B = = = = IVCBFOLTU==T(AIV(F1V)OL)T6UT(VA(1V,) )63V.5,A3.C5AurCreunrtreLnimt LitiemditSeoduSrcoeur(cIOeUT(I=O0U)T=0) A VVABIONU==(TVTVV()V1yION)U6p(TVTVi()cV1y,)a6p3lVi.cF5,aA3lu.FC5ltaAuRurCrleteusnRprtreoesLnnpismtoeLni:tisZmeeEdi:NtSZe0Eod6NuS5r0Voc6eu253r(VcI0Oe2AU3(T1I0=O6A0UL)T1S=60L)SAB A B A 11550 11550CA == ICVAFLINT==((AVIVF))ILNT ((VA)) B = VBOU=T V(VO)UT (V) BA BA 15 15C = ICFLT=(AIF)LT (A) 1500 1500 00 10 10 50 0 50 0 0.10 0.10 0.20 0.20 TimeTi(ms)e (s) 0.10 0.10 0.20 0.20 CC B 0.3B0 0.30 CC B 0.3B0 0.30 TimeTi(ms)e (s) 32 5TE 5Connectivity /// Circuit protection prodCuctC catalog 00 00 TypTicyapliFca0.lu1F0lta0R.u10eltsRpeosnpsoen: ZseE:NZ00E.92N80 0V0.922803V02A3106AL1S6LS 0.30 0.30 00 16V1, 63V.5,A3.C5AurCreunTrtrimeLneiTmti(msLi)teiem(dsi)tSeoduSrcoeur(cIOeUT(I=O0U)T=0C) C 55 00 00 00 RoHS Compliant, ELVCCoCmpliant TypTicyapliFca0lu.1Fl0ta0Ru.1el0tsRpeosnpsoen: ZseE:NZ1E03.N2201V032.2230V02A3106AL1S6LS 0.30 0.30 20V2, 02V.0,A2.C0AurCreunrTtrieLmniemTti(Lmisti)eemd(ist)SeoduSrcoeur(cIOeUT(I=O0U)T=0) C C VolVtoaltgaeg( VoltVoalgtea (g 55 55 BB BB 55 55 4 PolyZen Devices CC 0 0 0P00o0 lymer Pr0.o10t0e.10cted Zen0.2e0 r0.20DiodeC 0C.30 0.30 00 0.10 0.10 TimeT(ims)e (s) 0.20 0.20 0.30 0.30 TimeT(ism) e (s) 00 0 0 00 00 0.10 0.10 0.20 0.20 0.10 0.10 TimeT(ims)e (s) 0.20 0.20 TimeT(ism) e (s) Figures PZ22-PZ34 -- Basic Operation Examples for PolyZen Devices - LS Series VolVtoaltgaeg( VoltVoalgtea (g BB BB CC C 0.3C0 0.30 0.30 0.30 (Cont'd) Figure PZ31 TypiTcyapl iFcaaul lFtaRueltspRoenspseo:nZsEe:NZ0E9N8V09283V0A23106ALS16LS Ty1p6iVcT,1ay36lp.VFi5ca,Aau3ll.CFt5uaARruerClestupnRrotreneLsnsipmeto:LintZiesmEdeNi:tSZ0eo9Edu8NSrV0co2e9u38(r0VIcOAe2U13T(6=I0OL0AUS)T1=60L)S 18 18 16V,136.V5A, 3C.5uArrCenutrrLeinmtiLteimd iSteodurScoeu(rIOcUeT(=IO0U) T=0) VolVtoaltgaeg(eV)(Vo)r oCrurCruerrnte (ntA)(A) VoltVoalgtea (geV)(Vo)r oCrurCruernrte(ntA)(A) 18 18A = VAIN =(VV) IN (V) 16 16 14 111AB664CB ==VVIABNOU(==VT )(VVVION)U(TV()V) ==VIOFCBLUTT==((AVIV)F)OLTUT(A(V) ) 14 12 1C4 12 = IFCLT (=A)IFLT (A) 12 12 10 10 AA AA BB BB 10 10 88 88 66 66 44 44 22 22 00 0 0 00 00 0.05 0.05 0.05 0.05 0.10 0.10 Tim0.1e0T(ims0).e10(s) 0.15 0.15 0.15 0.15 CC C 0C.20 0.20 0.20 0.20 TimeT(ism) e (s) VolVtoaltgaeg(eV)(Vo)r oCrurCruerrnte (ntA)(A) VoltVoalgtea (geV)(Vo)r oCrurCruernrte(ntA)(A) Figure PZ33 TypiTcyapl iFcaaul lFtaRueltspRoenspseo:nZsEe:NZ0E5N6V05067V5A07458ALS48LS T4y8pVicT,4ay18lp0VFi.,c0aa1Aul0lFt.C0aRuAuerlrCstepuRnorternseLspniemot:nLiZtsieEmedN:itZ0Se5Eod6NuVSr0c0o5e7u65(VrIAcO0eU47T8(5=ILOA0SU4)T8=L0S) 50 50 48V,4180V.0, A10C.0uArrCenutrrLeinmtiLteimd iSteodurScoeu(rIOcUeT(=IO0U) T=0) 50 50A = VAIN =(VV) IN (V) AA AB==VVIABNOU(==VT )(VVVION)U(TV()V) 40 40 44CB00C ==VIOFCBLUTT==((AVIV)F)OLTUT(A(V) ) = IFCLT (=A)IFLT (A) AA 30 30 30 30 20 20 20 20 10 10 10 10 00 0 0 00 00 0.01 0.01 0.01 0.01 0.02 0.02 Ti0m.0e2T(ims0).0e2 (s) TimeT(ism) e (s) 0.03 0.03 0.03 0.03 BB BB CC C 0C.04 0.04 0.04 0.04 Figure PZ32 TypiTcyapl iFcaaul lFtaRueltspRoenspseo:nZsEe:NZ1E3N2V13223V0A23106ALS16LS Ty2p0iVcT,2ay20lp.VFi0ca,Aau2ll.CFt0uaARruerClestupnRrotreneLsnsipmeto:LintZiesmEdeNi:tSZ1eo3Edu2NSrV1co2e3u32(r0VIcOAe2U13T(6=I0OL0AUS)T1=60L)S 22 22 20V,220.V0A, 2C.0uArrCenutrrLeinmtiLteimd iSteodurScoeu(rIOcUeT(=IO0U) T=0) 2220 2220A = VAIN =(VV) IN (V) 2108 1186 1164 2111CAB0886CB 1164 ==VVIABNOU(==VT )(VVVION)U(TV()V) ==VIOFCBLUTT==((AVIV)F)OLTUT(A(V) ) = IFCLT (=A)IFLT (A) AA AA BB BB VolVtoaltgaeg(eV)(Vo)r oCrurCruerrnte (ntA)(A) VoltVoalgtea (geV)(Vo)r oCrurCruernrte(ntA)(A) 1142 1142 1120 1120 108 180 86 86 64 64 42 42 20 20 0 0 00 00 0.05 0.05 0.05 0.05 0.10 0.10 0.15 0.15 0.20 0.20 0.10 0.10 Ti0m.1e5T(ims0).1e5(s) 0.20 0.20 C C 0.25 0.25 0.25 0.25 C C0.30 0.30 0.30 0.30 TimeT(ism) e (s) Figure PZ34 TypiTcyapl iFcaaul lFtaRueltspRoenspseo:nZsEe:NZ1E3N2V13027V5A07458ALS48LS Ty4p8iVcT,4ay28lp.VFi0ca,Aau2ll.CFt0uaARruerClestupnRrotreneLsnsipmeto:LintZiesmEdeNi:tSZ1eo3Edu2NSrV1co0e3u72(r5VIcOAe0U47T(8=I5OL0AUS)T4=80L)S 50 50 48V,428.V0A, 2C.0uArrCenutrrLeinmtiLteimd iSteodurScoeu(rIOcUeT(=IO0U) T=0) 50 45 5405A = VAIN =(VV) IN (V) 45 4A5B==VVIABNOU(==VT )(VVVION)U(TV()V) 40 40 44B00C==VIOFCBLUTT==((AVIV)F)OLTUT(A(V) ) 35 3C5 = IFCLT (=A)IFLT (A) AA AA 35 35 30 30 VolVtoaltgaeg(eV)(Vo)r oCrurCruerrnte (ntA)(A) VoltVoalgtea (geV)(Vo)r oCrurCruernrte(ntA)(A) 30 30 25 25 25 25 20 20 20 15 2105 15 15 10 10 BB BB 10 10 55 55 CC 0 00 0 0 00.02 0.002.04 0.004.06 0.006.08 0.080.10 0.10.12 0.102.14 0.140.16 0.160.1C8 0.108C.20 0.20 0 00.02 0.002.04 0.004.06 0.006.08 0T.0i08m.10eT(im0s.)1e00.1(s2) 0.102.14 0.104.16 0.106.18 0.01.820 0.20 TimeT(ism) e (s) Figures PZ35-PZ38 -- Basic Operation Examples for PolyZen Devices - YM Series Figure PZ35 25 20 15 Typical Fault Response: ZEN056V130A16YM 20V/3A Current Limited Source (IOUT = 0) A = VIN (V) A B = VOUT (V) C = IFLT (A) Voltage (V) or Current (A) 10 5 0 0.00 0.05 0.10 Time (s) B C 0.15 Figure PZ37 25 20 15 Typical Fault Response: ZEN132V130A16YM 20V/1A Current Limited Source (IOUT = 0) A = VIN (V) B = VOUT (V) A C = IFLT (A) B Voltage (V) or Current (A) 10 5 C 0 0.00 0.05 0.10 0.15 0.20 0.25 Time (s) Voltage (V) or Current (A) Figure PZ36 15 10 Typical Fault Response: ZEN056V175A12YM 12V/3A Current Limited Source (IOUT = 0) A = VIN (V) A B = VOUT (V) C = IFLT (A) B 5 0 0.00 0.05 0.10 Time (s) C 0.15 Figure PZ38 25 20 15 Typical Fault Response: ZEN132V175A12YM 20V/1A Current Limited Source (IOUT = 0) A = VIN (V) B = VOUT (V) A C = IFLT (A) B Voltage (V) or Current (A) 10 5 C 0 0.00 0.05 0.10 0.15 0.20 0.25 0.30 Time (s) RoHS Compliant, ELV Compliant 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 25 25 20 20 15 15 TypTyicpailcaFal uFaltuRlteRspesopnosne:sZe:EZNE0N5065V61V3103A02A42Y4CYC 242V4/V3A/3CAuCrruernretnLtimLiimteidteSdoSuorcuerc(eIO(UITOU=T0=) 0) A =AV=IN V(VIN) (V) B =BV=OUVT O(VUT) (V) C =CIF=LT I(FALT) (A) AA Voltage (V) or Current (A) Voltage (V) or Current (A) 10 10 55 BB CC 00 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 TimTeim(se) (s) Figure PZ41 25 25 20 20 15 15 TypTyicpailcaFal uFaltuRlteRspesopnosne:sZe:EZNE0N5065V62V6206A01A61Y6CYC 202V0/V3A/3CAuCrruernretnLtimLiimteidteSdoSuorcuerc(eIO(UITOU=T0=) 0) A =AV=IN V(VIN) (V) B =BV=OUVT O(VUT) (V) C =CIF=LT I(FALT) (A) AA Voltage (V) or Current (A) Voltage (V) or Current (A) 10 10 55 BB CC 00 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 TimTeim(se) (s) Figure PZ43 25 25 20 20 15 15 TypTyicpailcaFal uFaltuRlteRspesopnosne:sZe:EZNE1N3123V22V3203A01A61Y6CYC 202V0/V1A/1CAuCrruernretnLtimLiimteidteSdoSuorcuerc(eIO(UITOU=T0=) 0) A =AV=IN V(VIN) (V) B =BV=OUVT O(VUT) (V) C =CIF=LT I(FALT) (A) AA BB Voltage (V) or Current (A) Voltage (V) or Current (A) 10 10 55 00 0.000.00 0.100.10 0.200.20 0.300.30 0.400.40 TimTeim(se) (s) CC 0.500.50 0.600.60 Figure PZ40 25 25 20 20 15 15 TypTyicpailcaFal uFaltuRlteRspesopnosne:sZe:EZNE0N5065V62V3203A01A61Y6CYC 202V0/V3A/3CAuCrruernretnLtimLiimteidteSdoSuorcuerc(eIO(UITOU=T0=) 0) A =AV=IN V(VIN) (V) B =BV=OUVT O(VUT) (V) C =CIF=LT I(FALT) (A) AA Voltage (V) or Current (A) Voltage (V) or Current (A) 10 10 55 BB CC 00 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 TimTeim(se) (s) Figure PZ42 TypTyicpailcaFal uFaltuRlteRspesopnosne:sZe:EZNE1N3123V21V3103A02A42Y4CYC 242V4/V1A/1CAuCrruernretnLtimLiimteidteSdoSuorcuerc(eIO(UITOU=T0=) 0) 25 25 20 20 15 15 A =AV=IN V(VIN) (V) B =BV=OUVT O(VUT) (V) C =CIF=LT I(FALT) (A) AA BB Voltage (V) or Current (A) Voltage (V) or Current (A) 10 10 55 00 0.000.00 0.100.10 0.200.20 0.300.30 0.400.40 TimTeim(se) (s) CC 0.500.50 0.600.60 Figure PZ44 25 25 20 20 15 15 TypTyicpailcaFal uFaltuRlteRspesopnosne:sZe:EZNE1N3123V22V6206A01A61Y6CYC 202V0/V1A/1CAuCrruernretnLtimLiimteidteSdoSuorcuerc(eIO(UITOU=T0=) 0) A =AV=IN V(VIN) (V) B =BV=OUVT O(VUT) (V) C =CIF=LT I(FALT) (A) AA BB Voltage (V) or Current (A) Voltage (V) or Current (A) 10 10 55 00 0.000.00 0.100.10 0.200.20 0.300.30 0.400.40 TimTeim(se) (s) CC 0.500.50 0.600.60 Table PZ4 - Packaging and Marking Information for PolyZen Devices Part Number ZENxxxVyyyAzzLS ZENxxxVyyyAzzYM ZENxxxVyyyAzzYC Bag Quantity -- -- -- Tape & Reel Quantity 3,000 3,000 4,000 Standard Package 15,000 30,000 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 Min Max mm 3.85 4.15 in (0.152) (0.163) B Min Max 3.85 4.15 (0.152) (0.163) C Min Max 1.40 2.00 (0.055) (0.081) ZENxxxVyyyAzzYM Devices A Min Max mm 3.00 3.40 in (0.118) (0.134) B Min Max 2.30 2.70 (0.091) (0.106) C Min Max 1.10 1.30 (0.043) (0.051) ZENxxxVyyyAzzYC Devices A Min Max mm 4.80 5.20 in (0.190) (0.206) B Min Max 3.80 4.20 (0.150) (0.166) C Min Max 1.20 1.40 (0.047) (0.055) C A B C L B W A H Table PZ6 -- Pad Layout and Configuration Information ZENxxxVyyyAzzLS Devices Pin Number Pin Name Pin Function Pin Configuration (Top View) Pin Configuration (Top View) 1 VIN VIN = Protected input to Zener diode 2 GND GND = Ground VIN 1 3 VOUT VOUT = Zener regulated voltage output 2 GND VIN 1 3 VOUT 2 GND 3 VOUT Pad Dimensions Pad Dimensions 2.21mm (0.087") 0.56mm (0.022") 0.33mm 2.2(10m.0m13") (0.087") 0.94mm (0.037") 0.33mm 0.94mm (0.013") (0.037") 0.94mm (0.037") 0.94mm (0.037") 2.88mm (0.1135") 0.56mm 0.5(60m.0m22") (0.022") 2.88mm (0.1135") 0.56mm (0.022") ZENxxxVyyyAzzYM Devices Pin Number Pin Name Pin Function 1 VIN VIN = Protected input to Zener diode 2 GND GND = Ground 3 VOUT VOUT = Zener regulated voltage output ZENxxxVyyyAzzYC Devices Pin Number Pin Name Pin Function 1 VIN VIN = Protected input to Zener diode 2 GND GND = Ground 3 VOUT VOUT = Zener regulated voltage output Pin Configuration Pin Conf(iTgoupraVtioienw(T)op View) 2 1 GND PViInN Configuration (Top View) 3 V2 OUT 1 GND VIN Pin Configuration (Top Vi3VeOwU)T 2 1 Pin ConfiguratioGnND VPiINn Conf(iTgoupraVtioienw(T)op View) 3 V2 OUT 1 GND VIN 3 VOUT Recommended Pad RecommDeimndeendsPiaodnDsim(menmsio) ns (mm) 3.20 Rec2o.5m0 m2.1e9nded Pad Dimensions (mm) 3.20 0.80 (2X) 0.60 (3X) 2.50 2.19 Recommended Pad Dimensions0.8(m0 (2mX)) 0.56.000(3X) Recommended Pad Re4c.0o0m2.m0D3eimndeendsPiaodnDsim(menmsi1o).9n7s (mm) 1.02 (2X) 5.00 1.51 0.51 (2X) 4.00 2.03 1.97 1.02 (2X) 1.51 0.51 (2X) Recommended Pad RecommeLnadyeoduPtad(mLamyo)ut (mm) Re2c.o50mmended Pad Layout (m0.m90 ) 0.80 (2X) 1.20 1.00 (3X) 2.50 0.90 Recommended Pad Layout 0(.m80m(2X)) 1.00 (3X) 1.20 3.99 Recommended Pad R2.2e5commLenadyeoduPta(dmLam2y.o9)8ut (mm) 3.99 1.66 1.12 (2X) 0.56 (2X) 2.25 2.98 1.12 (2X) 0.56 (2X) 1.66 RoHS Compliant, ELV Compliant TE Connectivity /// Circuit protection product catalog 35 4 PolyZen Devices Polymer Protected Zener Diode Solder Reflow and Rework Recommendation 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 5°C of Actual Peak Temperature Time (tp) Average Ramp Down Rate (Tp to TL) Time 25°C to Peak Temperature ZENxxxVyyyAzzLS Devices ZENxxxVyyyAzzYM Devices Pb-Free Assembly 3°C/ s Max 150°C 200°C 60-180 s 217°C 60-150 s 260°C 20-40 s 6°C/ s Max 8 Minutes Max Note: All temperatures refer to top side of the package, measured on the package body surface. ZENxxxVyyyAzzYC Devices Pb-Free Assembly 3°C/ s Max 150°C 200°C 60-180 s 217°C 60-150 s 250°C 20-40 s 3°C/ s Max 8 Minutes Max Figure PZ45 Tp TL Ts MAX Ts MIN Temperature tp Ramp Up tL Critical Zone TL to Tp ts Preheat Ramp Down 25 Reflow Profile t 25°C to Peak Time Tape and Reel Specifications for PolyZen Devices in Millimeters Figure PZ46 -- EIA Referenced Taped Component Dimensions for ZENxxxVyyyAzzLS Devices in Millimeters (mm) Description A0 B0 K0 ZENxxxVyyyAzzLS Devices 4.35 4.35 2.30 0.35 ± 0.05 2.00 ± 0.05Note 2 8.00 4.00Note 1 ø1.5 + 0.1 / -0.0 ø1.50 Min 0.25 R A 1.75 ± 0.10 R 0.3 Max B0 K0 A0 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 36 TE Connectivity /// Circuit protection product catalog 5.50 ± 0.05Note 3 12.0 ± 0.3 A RoHS Compliant, ELV Compliant 4 PolyZen Devices Polymer Protected Zener Diode Figure PZ47 -- Reel Dimensions for ZENxxxVyyyAzzLS Devices in Millimeters (mm) Description AMax NMin W1 W2 Dimension (mm) 330 102 8.4 11.1 Lock Feature (6 places) ø20.0 Min. ø13.0 +0.5 0.2 2.0 +/ 0.5 Detail A See "Detail A" Matte Finish These Areas AMax 330.0 +0.25 4.00 NMin 102.0 Ref 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 2.90±0.10 T 0.25±0.02 B0 3.55±0.10 E1 1.75±0.10 K0 1.27±0.10 F 3.50±0.05 P0 4.00±0.10 D0 1.55±0.05 P1 4.00±0.10 D1 1.00±0.10 P2 2.00±0.05 W 8.00±0.30 B1Max 4.35 D1Max 1.0 T T2 B1 K0 S1 K1 T1 For Machine Reference Only Including Draft and Radii Concentric Around Bo P2 Cover Tape P0 10 pitches cumulative tolerance on tape ±0.2 (±0.008) D0 B0 Embossment A0 D1 for components 2.0mm x 1.2mm and larger E1 E2 W F P1 Center Lines of Cavity USER DIRECTION OF FEED 100mm 1mm MAX. Allowable Camber to be 1mm/100mm Noncumulative Over 250mm 1mm MAX. 250mm Figure PZ49 -- Reel Dimensions for ZENxxxVyyyAzzYM Devices in Millimeters (mm) 1.4 R1.9 2±0.5 Ø13.R5±100..55 R0.5 120° RoHS Compliant, ELV Compliant 08 06 04 02 Ø178±1 Ø60.1 4.0±0.5 13 08 06 04 02 H ±0.5 (H+3) ±0.5 H=8mm 5.0±0.5 Ø10.0 R22 3.0±0.5 TE Connectivity /// Circuit protection product catalog 37 2.5±0.5 Ø99.5±1 Ø330.0±1 D 4 PolyZen Devices Polymer Protected Zener Diode Figure PZ50 -- EIA Referenced Taped Component Dimensions for ZENxxxVyyyAzzYC Devices in Millimeters (mm) Item W P E F P2 D D1 P0 10P0 A0 B0 K0 t Dimension 12.00 8.00 1.75 5.50 2.00 1.50 1.50 4.00 40.00 4.20 5.25 1.40 0.24 Tolerance ±0.10 ±0.10 ±0.10 ±0.10 ±0.10 +0.10 -0.00 ±0.10 ±0.10 ±0.20 ±0.10 ±0.10 ±0.10 ±0.05 E F W P0 P2 D1 P B B 8° A0 t 5° B0 K0 Figure PZ51 -- Reel Dimensions for ZENxxxVyyyAzzYC Devices in Millimeters (mm) 12mm±0.5 H 2.3±0.5 Ø13.5±0.5 6 P. S 4.0±0.5 7 6 5 4 3 2 1 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 0513F 0517F 1313F 1317F VZ 5.6V 5.6V 13.2V 13.2V tnnn 1234567 Hold Current Special Code 1.3A F 1.75ZAener Diode Voltage RatingF 1.3nAnn = 056 (5.6V) F 1.75A F Batch Number XXXXF Part Description ZEN056V130A16YM ZEN056V175A12YM ZEN132V130A16YM ZEN132V175A12YM ZENxxxVyyyAzzYC Devices Markings 0513F 052XF 052XF 1313F 132XF 132XF #### VZ 5.6V 5.6V 5.6V 13.2V 13.2V 13.2V XXXXF Hold Current XX1.X3AXF ##2.3#A # Special Code F F 2.6A F 1.3A F 2.3A F 2.6A F Last 4 digits of batch number XXXXF #### Part Description ZEN056V130A24YC ZEN056V230A16YC ZEN056V230A16YC ZEN132V130A24YC ZEN132V230A16YC ZEN132V230A16YC 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 CompliantAdobe InDesign CS6 (Macintosh) Adobe PDF Library 10.0.1