Features. RoHS & Halogen Free (HF) compliant. EIA size: 040 ~ 0 3. Operating voltage: 5.5Vdc ~ 85Vdc 4. High surge suppress capability 5. Bidirectional and symmetrical V/I characteristics 6. Multilayer ceramic construction technology 7. Variable capacitance 8. Operating temperature range: -40 ~ +85 Storage temperature range: -40 ~ +5 Recommended Applications. Power system. Motherboard/notebook computer 3. Scanner 4. Handheld devices 5. Digital video 6. Set-top box Part Number Code T V M 3 B 8 0 K 5 R Y 3 4 5 6 7 8 9 3 4 5 6 TVM Product Type THINKING SMD Varistor TVM Series B Series B series Varistor Voltage (V ma ) R.5V 80 8x 0 V=8V 330 33x 0 V=33V Tolerance of V ma K ±% L ±5% M ±0% Packaging R B Reel Bulk Optional Suffix RoHS & Y HF Compliant Size (EIA) 0 040 0603 0805 3 06 Typical Capacitance (@KHz) 50 5 x 0 =5pF 3 3 x =30pF 5 5 x =500pF 4 5 8 6 0 Structure and Dimensions H W L L L3 Varistor Ceramics Electrode (Unit: mm) Series Size (EIA) L W Hmax. L and L3 TVM0 040.00±0.5 0.50±0. 0.60 0.0±0. TVM 0603.60±0.5 0.80±0.5 0.95 0.35±0.5 TVM 0805.00±0.0.5±0.0.00 0.40±0.0 TVM3 06 3.0±0.30.60±0.0.50 0.50±0.0 TVM4 3.0±0.30.50±0.5.50 0.50±0.0 TVM5 8 4.50±0.40 3.0±0.30.50 0.60±0.30 TVM6 0 5.70±0.40 5.00±0.30.00 0.60±0.30 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 36 www.thinking.com.tw 04.05
Electrical Characteristics Part No. Varistor Voltage (@ ma DC) Max. Continuous Voltage Max. Clamping Voltage (8/0μs) Max. Surge Current (8/0μs) Max. Energy (/00μs) Rate Power Typical Capacitance @KHz V ma V ma V AC(rms) V DC V p I p Imax Wmax P Cp (V) (±%) (V) (V) (V) (A) (A) (J) (W) (pf) TVM0B080M3 8 0 4 5.5 9 0.05 0.003 30 TVMB080M95 8 0 4 5.5 9 30 0. 0.003 950 TVMB080M5 8 0 4 5.5 9 60 0. 0.005 500 TVM3B080M48 8 0 4 5.5 7 50 0.3 0.008 4800 TVM4B080M8 8 0 4 5.5 7.5 50 0.4 0.0 800 TVM5B080M83 8 0 4 5.5 7 5 500 0.8 0.05 8000 TVM6B080M93 8 0 4 5.5 7 00.4 0.0 9000 TVM0BM6 0 6 8 7 0.05 0.003 60 TVMBM60 0 6 8 7 30 0. 0.003 600 TVMBM4 0 6 8 7 60 0. 0.005 400 TVM3BM39 0 6 8 5 00 0.4 0.008 3900 TVM4BM75 0 6 8 5.5 300 0.7 0.0 7500 TVM5BM53 0 6 8 5 5 500 0.05 5000 TVM6BM53 0 6 8 5 00 3.6 0.0 5000 TVM0BRM4.5 0 7 9 30 0.05 0.003 40 TVMBRM57.5 0 7 9 30 30 0. 0.003 570 TVMBRM.5 0 7 9 9 60 0. 0.005 0 TVM0B50L 5 5 8 33 0.05 0.003 0 TVMB50L5 5 5 8 33 30 0. 0.003 50 TVMB50L95 5 5 8 33 60 0. 0.005 950 TVM3B50L5 5 5 8 30 00 0.5 0.008 500 TVM4B50L48 5 5 8 30.5 400 0.0 4800 TVM5B50L3 5 5 8 30 5 800.8 0.05 000 TVM6B50L83 5 5 8 30 00 4. 0.0 8000 TVM0B80K800 8 4 35 0.05 0.003 80 TVMB80K4 8 4 35 30 0. 0.003 40 TVMB80K67 8 4 35 60 0. 0.005 670 TVM3B80K5 8 4 33 00 0.5 0.008 500 TVM4B80K9 8 4 33.5 400. 0.0 900 TVM5B80K55 8 4 33 5 800.9 0.05 5500 TVM6B80K3 8 4 33 00 5.4 0.0 000 TVM0B0K600 4 8 44 0.05 0.003 60 TVMB0K30 4 8 40 30 0. 0.003 300 TVMB0K43 4 8 40 60 0.3 0.005 430 TVM3B0K 4 8 4 00 0.5 0.008 00 TVM4B0K4 4 8 38.5 400.5 0.0 400 TVM5B0K50 4 8 38 5 800.3 0.05 5000 TVM6B0K3 4 8 38 00 5.8 0.0 000 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 37 www.thinking.com.tw 04.05
Part No. Varistor Voltage (@ ma DC) Max. Continuous Voltage Max. Clamping Voltage (8/0μs) Max. Surge Current (8/0μs) Max. Energy (/00μs) Rate Power Typical Capacitance @KHz V ma V ma V AC (rms) V DC V p I p Imax Wmax P Cp (V) (±%) (V) (V) (V) (A) (A) (J) (W) (pf) TVM0B70K500 7 7 55 0.05 0.003 50 TVMB70K8 7 7 46 30 0. 0.003 80 TVMB70K33 7 7 46 60 0.3 0.005 330 TVM3B70K 7 7 48 00 0.6 0.008 00 TVM4B70K0 7 7 44.5 400.7 0.0 000 TVM5B70K40 7 7 44 5 800.7 0.05 4000 TVM6B70K77 7 7 44 00 7. 0.0 7700 TVM0B330K400 33 0 6 63 0.05 0.003 40 TVMB330K5 33 0 6 56 30 0.3 0.003 50 TVMB330K30 33 0 6 56 60 0.3 0.005 300 TVM3B330K80 33 0 6 54 00 0.7 0.008 800 TVM4B330K3 33 0 6 54.5 400.9 0.0 300 TVM5B330K3 33 0 6 54 5 800 3 0.05 300 TVM6B330K58 33 0 6 54 00 7.8 0.0 5800 TVMB390K 39 5 3 67 30 0.3 0.003 0 TVMB390K8 39 5 3 67 60 0.3 0.005 80 TVM3B390K65 39 5 3 65 00 0.008 650 TVM4B390K 39 5 3 65.5 300.7 0.0 00 TVM5B390K5 39 5 3 65 5 800 3.7 0.05 500 TVM6B390K4 39 5 3 65 00 9.6 0.0 40 TVMB470K5 47 30 38 77 60 0.3 0.005 50 TVM3B470K38 47 30 38 77 00. 0.008 380 TVM4B470K90 47 30 38 77.5 300 0.0 900 TVM5B470K0 47 30 38 77 5 800 4. 0.05 000 TVM6B470K30 47 30 38 77 00 0.0 3000 TVM3B560K30 56 35 45 90 0 0.4 0.008 300 TVM4B560K60 56 35 45 90.5 50 0.0 600 TVM5B560K 56 35 45 90 5 500 4 0.05 00 TVM6B560K0 56 35 45 90 00 7.7 0.0 000 TVM3B680K5 68 40 56 0 0.5 0.008 50 TVM4B680K45 68 40 56.5 50.3 0.0 450 TVM5B680K 68 40 56 5 500 4.8 0.05 00 TVM6B680K5 68 40 56 00 9 0.0 500 TVM3B80K8 8 50 65 35 0 0.6 0.008 80 TVM4B80K30 8 50 65 35.5 00.6 0.0 300 TVM5B80K60 8 50 65 35 5 400 4.5 0.05 600 TVM6B80K 8 50 65 35 800 5.6 0.0 00 TVM3BK5 0 60 85 46 0 0.7 0.008 50 TVM4BK6 0 60 85 65.5 00 0.0 60 TVM5BK30 0 60 85 65 5 400 5.8 0.05 300 TVM6BK60 0 60 85 65 800 6.8 0.0 600 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 38 www.thinking.com.tw 04.05
Power Derating Curve Surge Current Standard Waveform Example: 8/0 s : Tr= 8 8 s Td= = 0 s Max. Power Rating (%) 0 Current (%) 0 90 50 Leading edge Trailing edge Imax LCT=-40 LUT=85 5 Ambient temperature ( ) 0 Tr Time Td Max. Surge Current Derating Curves 0 TVM0B080M~TVM0B330K 00 TVMB080M~TVMB390K 0 0. 3 4 5 6 0.0 0. 0.00 0 00 000 0.0 0 00 000 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 39 www.thinking.com.tw 04.05
Max. Surge Current Derating Curves 00 TVMB080M~TVMB470K 00 TVM3B080M 0 3 4 5 6 0 3 4 5 6 0. 0. 0.0 0 00 000 0.0 0 00 000 00 TVM3BM~TVM3B470K 00 TVM3B560K ~ TVM3BK 0 3 4 5 6 0 3 4 5 6 0. 0. 0.0 0 00 000 0.0 0 00 000 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 40 www.thinking.com.tw 04.05
Max. Surge Current Derating Curves 000 TVM4B080M/TVM4B560K/TVM4B680K 000 TVM4BM/TVM4B390K/TVM4B470K 00 00 0 3 4 5 6 0 3 4 5 6 0. 0 00 000 TVM4B50L ~ TVM4B330K 000 0. 0 00 000 000 TVM4B80K~TVM4BK 00 00 0 3 4 5 6 0 3 4 5 6 0. 0 00 000 0. 0 00 000 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 4 www.thinking.com.tw 04.05
Max. Surge Current Derating Curves 000 TVM5B080M / TVM5BM/ TVM5B560K / TVM5B680K 000 TVM5B50L~TVM5B470K 00 00 0 3 4 5 6 0 3 4 5 6 0. 0 00 000 TVM5B80K ~ TVM5BK 000 0. 0 00 000 TVM6B080M/TVM6B560K/TVM6B680K 000 00 00 0 3 4 5 6 0 3 4 5 6 0. 0 00 000 0. 0 00 000 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 4 www.thinking.com.tw 04.05
Max. Surge Current Derating Curves TVM6BM~TVM6B470K 000 000 TVM6B80K~TVM6BK 00 0 3 4 5 6 00 0 3 4 5 6 0. 0 00 000 0. 0 00 000 Max. Leakage Current and Max. Clamping Voltage Curves 00 Max. Leakage Current and Max. Clamping Voltage Curves (TVM0B080M ~ TVM0B330K) Max. Clamping Voltage Max. Leakage Current Voltage (V) 0 TVM0B330K TVM0B70K TVM0B0K TVM0B80K TVM0B50L TVM0BRM TVM0BM TVM0B080M -5-4 -3 - - 3 Current (A) THINKING ELECTRONIC INDUSTRIAL Co., LTD. 43 www.thinking.com.tw 04.05
Max. Leakage Current and Max. Clamping Voltage Curves 00 Max. Leakage Current and Max. Clamping Voltage Curves (TVMB080M ~ TVMB390K) Max. Clamping Voltage Max. Leakage Current Voltage (V) 0 TVMB390K TVMB330K TVMB70K TVMB0K TVMB80K TVMB50L TVMBRM TVMBM TVMB080M -5-4 -3 - - 3 Current (A) 00 Max. Leakage Current and Max. Clamping Voltage Curves (TVMB080M ~ TVMB470K) Max. Clamping Voltage Voltage (V) 0 Max. Leakage Current TVMB470K TVMB390K TVMB330K TVMB70K TVMB0K TVMB80K TVMB50L TVMBRM TVMBM TVMB080M -5-4 -3 - - 3 Current (A) THINKING ELECTRONIC INDUSTRIAL Co., LTD. 44 www.thinking.com.tw 04.05
Max. Leakage Current and Max. Clamping Voltage Curves 000 Max. Leakage Current and Max. Clamping Voltage Curves (TVM3B080M ~ TVM3BK) Max. Clamping Voltage Max. Leakage Current Voltage (V) 00 0 TVM3BK TVM3B80K TVM3B680K TVM3B560K TVM3B470K TVM3B390K TVM3B330K TVM3B70K TVM3B0K TVM3B80K TVM3B50L TVM3BM TVM3B080M -5-4 -3 - - 3 Current (A) 4 Max. Leakage Current and Max. Clamping Voltage Curves (TVM4B080M ~ TVM4BK) 000 Max. Clamping Voltage Max. Leakage Current Voltage (V) 00 0 TVM4BK TVM4B80K TVM4B680K TVM4B560K TVM4B470K TVM4B390K TVM4B330K TVM4B70K TVM4B0K TVM4B80K TVM4B50L TVM4BM TVM4B080M -5-4 -3 - - 3 Current (A) 4 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 45 www.thinking.com.tw 04.05
Max. Leakage Current and Max. Clamping Voltage Curves 000 Max. Leakage Current and Max. Clamping Voltage Curves (TVM5B080M ~ TVM5BK) Max. Clamping Voltage Voltage (V) 00 0 Max. Leakage Current TVM5BK TVM5B80K TVM5B680K TVM5B560K TVM5B470K TVM5B390K TVM5B330K TVM5B70K TVM5B0K TVM5B80K TVM5B50L TVM5BM TVM5B080M -5-4 -3 - - 3 Current (A) 4 Max. Leakage Current and Max. Clamping Voltage Curves (TVM6B080M ~ TVM6BK) 000 Max. Clamping Voltage Voltage (V) 00 0 Max. Leakage Current TVM6BK TVM6B80K TVM6B680K TVM6B560K TVM6B470K TVM6B390K TVM6B330K TVM6B70K TVM6B0K TVM6B80K TVM6B50L TVM6BM TVM6B080M -5-4 -3 - - 3 Current (A) 4 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 46 www.thinking.com.tw 04.05
Soldering Recommendation IR-reflow Soldering Profile 55~60 Preheating Peak temp Cooling 7 60~50 sec 50±0 50~00 Temperature 3 C/sec (max.) 60~80 sec 3 C /sec 0~40 sec (max.) Time Reworking Conditions with Soldering Iron Item Temperature of Soldering Iron-tip Soldering Time Diameter of Soldering Iron-tip Conditions 360 (max.) 3 sec (max.) Φ 3mm (max.) Caution: Please do not touch the component surface with soldering iron directly to avoid its damage. Recommended Soldering Pad Dimensions Y X Tamb 6 C/sec (max.) 8 minutes max G Z Size Z (mm) G (mm) X (mm) Y (mm) 040.7 0.5 0.6 0.6 0603 3.0.0.0.0 0805 3.4.0.4. 06 4.5..8. 4.5..8. 8 6.0 3.0 3.6.5 0 7. 4. 5.5.5 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 47 www.thinking.com.tw 04.05
Reliability Item Standard Test conditions / Methods Specifications Bending Strength IEC 60068-- Warp: mm ; Speed<0.5mm/sec Duration: sec on PCB V ma /V ma 5% Adhesion Specification Standard Speed<0.5mm/sec on PCB 0.5Kgf the terminal electrode shall be break off not the chip element Damp Heat Load, Steady State IEC 60068--78 40± 90~95% RH 500±4 hrs at V DC V ma /V ma % High Temp. Storage IEC 65-5±5 x 00±4 hrs V ma /V ma 5% Rapid Change of Temperature IEC 65- The conditions shown below shall be repeated 5 cycles on PCB. Step Temperature ( ) Period (minutes) -40±3 30±3 Room temperature 5±3 3 5± 30±3 4 Room temperature 5±3 V ma /V ma 5% High Temp. Load IEC 65-85± 00±4 hrs at VDC V ma /V ma 5% Low Temp. Load Specification Standard -40±5 00±4 hrs at VDC V ma /V ma 5% Max. Energy Specification Standard /00μs Waveform, Wmax, surge current V ma /V ma % Vibration IEC 65- Frequency range: ~55Hz Amplitude: 0.75mm or 98m/s Direction: 3 mutually perpendicular directions, hrs each V ma /V ma 5% Varistor Voltage Temp. Coefficient Specification Standard Measure V ma at -40, 5, 5 Tc 0.05 (%/ ) Climatic Sequence IEC 65- a. 5 x 6 hrs b. st cycle : 55 93%RH x 4 hrs c. -40 x hrs d. 5 cycles : 55 93%RH x 4 hrs/cycle V ma /V ma % Solderability IEC 60068--58 45±5 3±0.3 sec. At least 95% of terminal electrode is covered by new solder Resistance to Soldering Heat IEC 60068--0 60±5 ± sec. V ma /V ma 5% THINKING ELECTRONIC INDUSTRIAL Co., LTD. 48 www.thinking.com.tw 04.05
Packaging Taping Specification For 040 Series (Unit: mm) Size Index A 0 ±0.05 B 0 ±0. W ±0. E ±0. F ±0.05 P ±0. P ±0.05 P 0 ±0. D 0 ±0. K 0 ±0. 040 0.6. 8.75 3.5 4.55 0.60 For 0603~0805 Series (Unit: mm) Size Index A 0 ±0. B 0 ±0. W ±0. E ±0. F ±0.05 P ±0. P ±0.05 P 0 ±0. D 0 ±0. K 0 ±0. 0603..9 8.75 3.5 4 4.55 0.95 0805.5.3 8.75 3.5 4 4.55.00 THINKING ELECTRONIC INDUSTRIAL Co., LTD. 49 www.thinking.com.tw 04.05
For 06~ 0 Series Size Index A 0 ±0. B 0 ±0. W ±0. E ±0. F ±0.05 P ±0. P ±0.05 8 3.65 4.96.75 5.5 8 4.55.5 0.5 0 5.50 6.5.75 5.5 8 4.55.5 0.5 P 0 ±0. D 0 ±0. D ±0. (Unit: mm) T ±0. THINKING ELECTRONIC INDUSTRIAL Co., LTD. 50 www.thinking.com.tw 04.05
Quantity For 040~ Series Size Quantity (pcs/reel) 040,000 0603 4,000 0805 3,500 06,500,500 (Unit: mm) For 8~0 Series Size Quantity (pcs/reel) 8,000 0,000 (Unit: mm) Warehouse Storage Conditions of Products Storage Conditions:. Storage Temperature: - ~+40. Relative Humidity: 75%RH 3. Keep away from corrosive atmosphere and sunlight. Period of Storage: year THINKING ELECTRONIC INDUSTRIAL Co., LTD. 5 www.thinking.com.tw 04.05