VE/VF Types for Heavy Duty Applications ( P Series ) FEATURES P Series are especially dedicated to heavy duty applications encountered in the AC power network. Higher surge current and energy ratings provide an improved protection and a better reliability Radial lead varistors Operating voltage range from 30 V to 5 V (V rms for VE types) or 05 V to 00 V (V ma for VF types) Available in tape and reel for use with automatic insertion equipment (see pages 3 to 33 for details). 30 (.) min D H t E PARTICULAR CHARACTERISTICS UL (USA and Canadian Standards) VE Series VF Series Maximum Nominal voltage P/N codification using P/N codification using operating voltage at ma dc (D max, V rms) (d ceramic, V ma) V rms V DC V ma mini V ma nominal V ma maxi VE07P003K VF05P0K 30 70 05 VE09P003K VF07P0K VE3P003K VFP0K VE7P003K VFP0K VEP003K VF0P0K VE07P00K VF05PK 0 0 9 0 VE09P00K VF07PK VE3P00K VFPK VE7P00K VFPK VEP00K VF0PK VE07P005K VF05PK VE09P005K VF07PK 00 0 VE3P005K VFPK VE7P005K VFPK VEP005K VF0PK VE07P07K VF05P7K 5 3 70 97 VE09P07K VF07P7K VE3P07K VFP7K VE7P07K VFP7K VEP07K VF0P7K VE07P00K VF05P33K 97 330 33 VE09P00K VF07P33K VE3P00K VFP33K VE7P00K VFP33K VEP00K VF0P33K VE07P003K VF05P3K 30 3 3 39 VE09P003K VF07P3K VE3P003K VFP3K VE7P003K VFP3K VEP003K VF0P3K TPC
VE/VF Types for Heavy Duty Applications ( P Series ) DIMENSIONS millimeters (inches) D Maximum ø Type Type Ceramic coated H t +% E diameter diameter max. max. 0.05 (.00) ± 0. VE07 VF05 5 (.9) 7 (.) (.39) 0. (.0) 5.0 (0.0) VE09 VF07 7 (.) 9 (.35) (.7) 0. (.0) 5.0 (0.0) VE3* VF* (.393) 3* (.5) (.30) see 0.* (.03) 7.*(0.30) VE7 VF (.55) 7 (.9) 0 (.77) table 0. (.03) 7. (0.30) VE** VF0** 0 (.77) (.) 7 (.0) 0.** (.03) 7. (0.30) * VE3 / VF: For models with V RMS 30 V other version/suffixes available with: E = 5.0 (0.0) Suffix: Ø = 0. (.0) Bulk: HB D =.5 (.9) max Tape: DA, DB, DC, DD, DQ,... **VE / VF0: For lead diameter =.0 (.039), please consult us. GENERAL CHARACTERISTICS Storage temperature: -0 C to +5 C Max. operating temperature: +5 C Response time: < 5 ns Voltage coefficient temp.: K < 0.09%/ C Voltage proof: 0 V Epoxy coating: Flame retardant UL9-VO MARKING Type AC nominal voltage (EIA coding) for VE types V ma varistor voltage (EIA coding) for VF types Logo UL logo (when approved) Lot number (VE3/7/ and VF//0 only) Max. clamping Max. energy absorption Max. permissible Typical Mean Maximum V/I Derating voltage ( x 0 µs) ( x 00 µs) peak current capacitance power thickness characteristic curves W (J) ( x 0 µs) f = khz dissipation t Vp (V) Number of surges surge surge surges pf W mm (inches) Page Page 30 5.5 00 0 90 0.. (.) 3 30 7.5 7 0.. (.) 3 5 30 5 35 30 0 0..7 (.5) 3 30 70 00 0 00 0..7 (.5) 35 7 30 0 0 000 7000 0 0. 5. (.0) 35 3 5 9 00 0 5 0.. (.5) 3 3 9 7 35 0.. (.5) 3 5 3 5 39 30 0 5 0.. (.9) 3 3 7 00 0` 930 0.. (.9) 35 7 3 0 55 000 7000 0. 5. (.05) 35 00 5.5 00 0 0 0..3 (.9) 3 00 7 0 0..3 (.9) 3 5 00 5 30 0 00 0..9 (.93) 3 00 5 00 0 0..9 (.93) 35 7 00 0 70 000 7000 000 0. 5.3 (.09) 35 5 5 00 0 70 0..5 (.77) 3 5 7 90 0..5 (.77) 3 5 5 5 30 0 30 0. 5. (.0) 3 5 0 00 0 7 0. 5. (.0) 35 7 5 0 90 000 7000 000 0. 5.5 (.7) 35 55 5 3 00 0 0..9 (.93) 3 55 7 55 0..9 (.93) 3 5 55 5 30 0 0. 5.5 (.7) 3 55 5 00 0 0 0. 5.5 (.7) 35 7 55 0 30 000 7000 0. 5.9 (.3) 35 5 5 00 0 55 0. 5. (.0) 3 5 3 7 0 0. 5. (.0) 3 5 5 5 5 30 0 0. 5.7 (.) 3 5 30 00 0 5 0. 5.7 (.) 35 7 5 0 000 7000 0 0.. (.0) 35 TPC 9
VE/VF Types for Heavy Duty Applications ( P Series ) UL (USA and Canadian Standards) VE Series VF Series Maximum Nominal voltage P/N codification using P/N codification using operating voltage at ma dc (D max, V rms) (d ceramic, V ma) V rms V DC V ma mini V ma nominal V ma maxi VE07P005K VF05P39K 30 35 390 9 VE09P005K VF07P39K VE3P005K VFP39K VE7P005K VFP39K VEP005K VF0P39K VE07P07K VF05P3K 3 37 30 73 VE09P07K VF07P3K VE3P07K VFP3K VE7P07K VFP3K VEP07K VF0P3K VE07P0030K VF05P7K 35 3 70 57 VE09P0030K VF07P7K VE3P0030K VFP7K VE7P0030K VFP7K VEP0030K VF0P7K VE09P003K VF07P5K 30 0 59 5 5 VE3P003K VFP5K VE7P003K VFP5K VEP003K VF0P5K VE09P0035K VF07P5K 3 5 VE3P0035K VFP5K VE7P0035K VFP5K VEP0035K VF0P5K VE09P03K VF07PK 35 5 55 VE3P03K VFPK VE7P03K VFPK VEP03K VF0PK VE09P00K VF07PK 0 5 0 7 VE3P00K VFPK VE7P00K VFPK VEP00K VF0PK VE3P00K VFP7K 0 55 3 77 VE7P00K VFP7K VEP00K VF0P7K VE3P00K VFPK 5 7 5 VE7P00K VFPK VEP00K VF0PK VE3P005K VFPK 5 70 73 0 90 VE7P005K VFPK VEP005K VF0PK VE3P0055K VFPK 5 77 9 VE7P0055K VFPK VEP0055K VF0PK VE3P057K VFP9K 5 730 9 9 0 VE7P057K VFP9K VEP057K VF0P9K VE3P0K VFPK 5 5 900 00 0 VE7P0K VFPK VEP0K VF0PK 0 TPC
VE/VF Types for Heavy Duty Applications ( P Series ) Max. clamping Max. energy absorption Max. permissible Typical Mean Maximum V/I Derating voltage ( x 0 µs) ( x 00 µs) peak current capacitance power thickness characteristic curves W (J) ( x 0 µs) f = khz dissipation t Vp (V) Number of surges surge surge surges pf W mm (inches) Page Page 5 5 7 00 0 0. 5. (.3) 3 5 35 7 30 0. 5. (.3) 3 5 5 5 70 30 0 30 0. 5.9 (.3) 3 5 0 00 0 0 0. 5.9 (.3) 35 7 5 0 0 000 7000 0..3 (.) 35 7 5 0 00 0 5 0. 5.7 (.) 3 7 0 7 0 0. 5.7 (.) 3 5 7 5 0 30 0 0..3 (.) 3 7 00 0 0..3 (.) 35 7 7 0 3 000 7000 00 0..7 (.) 35 7 5 00 0 0 0..0 (.3) 3 7 7 0 0..0 (.3) 3 5 7 5 5 30 0 0 0.. (.) 3 7 70 00 0 00 0.. (.) 35 7 7 0 30 000 7000 00 0. 7.0 (.7) 35 0 5 7 0 0.. (.5) 3 5 0 5 90 30 0 70 0. 7.0 (.7) 3 0 0 00 000 30 0. 7.0 (.7) 35 7 0 0 3 000 00 0 0. 7.5 (.) 35 9 7 7 0.. (.) 3 5 9 5 30 0 0. 7.3 (.7) 3 9 90 00 000 35 0. 7.3 (.7) 35 7 9 0 30 000 00 900 0. 7. (.307) 35 5 7 0. 7.0 (.7) 3 5 5 5 0 30 0 0. 7.7 (.303) 3 5 00 00 000 3 0. 7.7 (.303) 35 7 5 0 00 000 00 0.. (.39) 35 0 5 7 0 0. 7. (.9) 3 5 0 5 5 30 0 0 0.. (.33) 3 0 00 000 0.. (.33) 35 7 0 0 0 000 00 700 0.. (.339) 35 0 5 5 30 0 5 0.. (.33) 3 0 00 000 0.. (.33) 35 7 0 0 0 000 00 0.. (.3) 35 0 5 5 30 0 0..5 (.335) 3 0 00 000 0..5 (.335) 35 7 0 0 0 000 00 0 0. 9.0 (.35) 35 3 5 30 0 0 0. 9.0 (.35) 3 3 5 00 000 0 0. 9.0 (.35) 35 7 3 0 70 00 5 0. 9. (.370) 35 0 5 0 30 0 90 0. 9.3 (.3) 3 0 0 00 000 00 0. 9.3 (.3) 35 7 0 0 0 70 00 0 0. 9.7 (.3) 35 0 5 5 30 0 0 0. 9.7 (.3) 3 0 00 000 0 0. 9.7 (.3) 35 7 0 0 0 70 00 0.. (.39) 35 5 0 30 0 7 0..5 (.3) 3 30 00 000 5 0..5 (.3) 35 7 0 5 70 00 0..0 (.33) 35 TPC
Electrical Characteristics VE / VF Types VOLTAGE-CURRENT CHARACTERISTICS V/I characteristics give: - for I below ma the maximum leakage current under V dc - for I above ma the maximum clamping voltage U(V) VE 07/VF 05 3 30 30 0 30 5 0 5 30 0 35 30 0 5 0 35 30 7 5 0 7-5 - -3 - - 3 I U(V) U(V) VE 3/VF VE 09/VF 07 5 3 5 5 5 3 35 30 30 0 0 5 35 35 30 30 0 30 0 30 5 35 5 0 7 5 5 0 0 5 35 5 5 35 30 30 0 30 0 0 5 35 5 7 35 30 30 30 0 5 30 0 7 5 7 0-5 - -3 - - 3 I -5 - -3 - - 3 I TPC
Electrical Characteristics VE / VF Types VOLTAGE-CURRENT CHARACTERISTICS U(V) VE7/VF 3 5 5 5 5 0 35 30 0 30 0 30 5 0 0 3 30 5 5 5 5 0 35 30 30 0 30 5 0 35 30 5 0 7 5 7 0-5 - -3 - - 3 I U(V) VE/VF0 3 5 5 5 0 5 35 5 5 30 0 30 0 35 30 0 30 0 30 5 0 30 5-5 - -3 - - 3 I TPC 3
Electrical Characteristics VE / VF Types MAXIMUM SURGE CURRENT () DERATING CURVES WITH PULSE WIDTH ( ) AND FREQUENCY 00 00 VE07M/VF05M 0V RMS 00 00 VE07M/VF05M > 0V RMS 0 0 0 0 0 0 0 0 3 3 5 5 0. 0. 0. 0. 0. 0. 0. 0. 0. 0 00.000 0. 0 00.000 000 VE07P/VF05P 30V RMS to 5V RMS 00 0 3 5 0 00 000 TPC
Electrical Characteristics VE / VF Types MAXIMUM SURGE CURRENT () DERATING CURVES WITH PULSE WIDTH ( ) AND FREQUENCY 00 0 00 00 VE09M/VF07M 0V RMS.000.000 00 0 00 VE09M/VF07M > 0V RMS 0 0 0 0 00 0 0 0 3 5 0 3 5 0. 0. 0. 0. 0. 0. 0. 0. 0 00.000 0. 0 00.000 000 VE09P/VF07P 30V RMS to 5V RMS 00 0 3 5 0 00 000 TPC 5
Electrical Characteristics VE / VF Types MAXIMUM SURGE CURRENT () DERATING CURVES WITH PULSE WIDTH ( ) AND FREQUENCY 0 00 00 0 0 0 0 3 5 VE3M/VFM 0V RMS 3.000.000.000 00 0 00 00 0 0 0 0 3 5 VE3M/VFM >0V RMS 0. 0. 0. 0. 0. 0.0 0.0 0 00.000 0. 0. 0. 0 00.000 000 VE3P/VFP 30V RMS to 5V RMS 00 0 3 5 0 00 000 TPC
Electrical Characteristics VE / VF Types MAXIMUM SURGE CURRENT () DERATING CURVES WITH PULSE WIDTH ( ) AND FREQUENCY.000 00 0 00 00 0 0 0 0 3 5 VE7M/VFM 0V RMS 5.000.000 3.000.000.000 00 0 00 00 0 0 0 3 5 VE7M/VFM > 0 V RMS 0 0. 0. 0. 0. 0. 0 00.000 0. 0. 0 00.000 000 VE7P/VFP 30V RMS to 30V RMS 00 0 3 5 0 00 000 TPC 7
Electrical Characteristics VE / VF Types MAXIMUM SURGE CURRENT () DERATING CURVES WITH PULSE WIDTH ( ) AND FREQUENCY 7.000.000 5.000.000 3.000.000 VEM/VF0M > VRMS.000 00 0 00 00 3 0 0 0 5 0 0. 0 00.000 000 VEP/VF0P 30V RMS to 5V RMS 00 0 3 0 5 TPC 0 00 000
Ordering Code HOW TO ORDER VE09 M 0 05 K Type VE 07 VE 09 VE 3 VE 7 VE VF 05 VF 07 VF VF VF 0 VN 3 VB 3 Series M: Varistors for general applications P: Varistors for heavy duty applications Marking AC nominal voltage VE:0 Nominal voltage at ma dc VF: AC Operating Voltage (EIA coding) VE Nominal Voltage at ma dc (EIA coding) VF Tolerance at ma K: ±% (J: ±5% upon request) Suffixes See on page 3. Operating voltage expressed by significant figures: st digit: 0 (zero). nd and 3rd digit: the two significant figures of the operating voltage. th digit: the number of ZEROS to be added to the operating voltage value. Examples: V: 07 V: 05 V: 030. Operating voltage expressed by 3 significant figures: st, nd and 3rd digit: the 3 significant figures of the operating voltage. th digit: the number of ZEROS to be added to the operating voltage value. Examples: 05 V: 0 V: 7 TPC
Taping Characteristics TAPING OF OUR VARISTORS IS MADE ACCORDING TO IEC - Types: VE07/09 - VF05/07 h h P Reference plane p p Marking on this side H W P A B E H0 W W0 W H H Adhesive tape I D0 P0 d Cross section A - B Direction of unreeling t E Types: VE3/7 - VF/ h h P Reference plane p p Marking on this side H W A B E H0 W W0 W H H Adhesive tape I D0 P0 d P Cross section A - B Direction of unreeling t E DIMENSIONS: millimeters (inches) Dimension Characteristics Value Tolerance Leading tape width (.709) +/-0.5 W The hold down tape shall Adhesive tape width not protrude beyond the W 0 carrier tape Sprocket hole position 9 (.35) +0./-0.5 W Distance between the tops of the tape and the adhesive 3 (.) max W Diameter of sprocket hole (.57) ±0. D 0 Distance between the tape axis and the bottom plane of / (.30)/ ±0.5/ H component body or (.709) -0/+ Distance between the tape axis / (.30)/ ±0.5/ and the kink or (.709) -0/+ H 0 Distance between the tape axis and the top of component body VE 07/09 - VF 05/07 33.0 (.30) max H VE 3/7 - VF / 5.0 (.77) max Lead diameter 0. 0. +% (.0) (.03) -0.05 d Protrusions beyond the lower side of the hold down tape Lead spacing Components pitch 5 (.97) max I 5.0 7. (0.0) (0.30) ±0. E.7 5. (0.) (0.) ±0.3 p DIMENSIONS: millimeters (inches) Dimension Characteristics Value Tolerance Sprocket holes pitch.7 (0.) ±0.3 P 0 Distance between the sprocket hole axe and the lead axe 3. (.) ±0.7 P Total thickness of tape 0.9 (.035) max t Verticality of components 0 ± p Alignment of components 0 ± h TPC 3
Taping Characteristics PACKAGING For automatic insertion, the following types can be ordered on tape either in AMMOPACK (fan folder) or on REEL in accordance to IEC -. AMMOPACK millimeters (inches) MISSING COMPONENTS A maximum of 3 consecutive components may be missing from the bandolier, surrounded by at least filled positions. The number of missing components may not exceed 0.5% of the total per packing module. REEL millimeters (inches) (.) (.97) 335 (3.) 3 (.) 3 (.) 5 (.05) LEADS CONFIGURATION AND PACKAGING SUFFIXES The tables below indicate the suffixes to be specified when ordering kink and packaging types. For devices on tape, it is necessary to specify the height (H or Ho) which is the distance between the tape axis (sprocket holes) and the sitting plane on the printed circuit board. Straight leads H represents the distance between the sprocket holes axis and the bottom plane of component body (base of resin or base of stand off). Kinked leads Ho represents the distance between the sprocket holes axis and the base of the knee. Types VE 07/09 - VF 05/07 (VE3 - VF 30 V rms upon request) Leads Straight Kinked (type ) Kinked (type ) Dimensions 0. (.0) 0. (.0) 0. (.0) 5.0 (0.) 5.0 (0.) 5.0 (0.) Packaging AMMOPACK REEL AMMOPACK REEL AMMOPACK REEL H/Ho = ± 0.5 DA(*) DB(*) DQ(**) DR(**) D7(**) D5(**) H/Ho = -0/+ DC(**) DD(**) DS DT D D Types VE 3/7 - VF / Leads Straight Kinked (type ) Kinked (type ) Dimensions 0. (.03) 0. (.03) 0. (.03) 7. (0.3) 7. (0.3) Packaging AMMOPACK REEL AMMOPACK REEL AMMOPACK REEL H/Ho = ± 0.5 EA(*) EN(*) EC(**) EF(**) EQ(**) ER(**) H/Ho = -0/+ EB(**) ED(**) EG EH ES ET 3 TPC 7. (0.3) (*) DA, DB, EA, EN suffixes are not available for varistors with VRMS V are available only upon request for other types. (**) Preferred versions according to IEC -
> VRMS Zinc Oxide Varistors Packaging PACKAGING QUANTITIES Type Bulk AMMOPACK REEL VE07 - VF05 all 0 0 0 VE09 - VF07 < 30 V RMS 00 0 0 VE09 - VF07 30 V RMS V RMS 00 00 00 VE09 - VF07 > V RMS 7 00 00 VE3 - VF 30 V RMS 0 7 7 VE3 - VF > 30 V RMS V RMS 0 0 0 VE3 - VF > V RMS 0 VE7 - VF 30 V RMS 0 7 7 VE7 - VF > 30 V RMS V RMS 0 0 0 VE7 - VF > V RMS 0 VE - VF0 IDENTIFICATION - TRACEABILITY On the packaging of all shipped varistors, you will find a bar code label. This label gives systematic information on the type of product, part number, lot number, manufacturing date and quantity. An example is given below: Lot number Manufacturing date (YYMMDD) Quantity per packaging Part number This information allows complete traceability of the entire manufacturing process, from raw materials to final inspection. This is extremely useful for any information request. TPC 33