Tinned-Copper Wire Type Jumper Wires Normal Style [ JPW Series ] SPECIFICATIONS Material of Jumper Wire Soft copper wire with tin plating Wire Diameter ø0.5, ø0.6, ø0.7, ø0.8, ø1.0 (±0.05mm) Tension Strength CNS 8938 within 28kg/mm² Extension Rate Conductivity Twisting Strength CNS 8938 ø0.5 to ø0.6mm over 24% CNS 8938 ø0.7 to ø1.0mm over 26% ø0.5mm Minmum 94% ø0.6 to ø1.0mm Minmum 96% CNS 8938 ø0.5mm Load 250g 3 cycles CNS 8938 ø0.6 to ø0.8mm Load 500g 3 cycles CNS 8938 ø1.0mm Load 1.0kg 3 cycles Solderability 235±5°C, 3±0.5 Sec. coverage 95% Element of Plating Tin Minimum 99.9% Thickness of Plating 4±1µm Current Rating Appearance ø0.5mm 6 AMPS at 70°C ø0.6mm 7.5 AMPS at 70°C ø0.7mm 8.5 AMPS at 70°C ø0.8mm 10 AMPS at 70°C ø1.0mm 15 AMPS at 70°C INTRODUCTION Jumper wires or crossovers, as they are sometimes called, are basically interconnection devices between points on a PC Board. Generally they are used for the following reasons: •Inability to connect two points on a PC Board due to other circuit paths which must be crossed over •An After-the-Fact design change that requires new point connections •Circuit tuning by changing point connections Jumper wires offers a quick simple solution to these problems. They are especially suited for automatic machine insertion on lead tape , and are available in all packaging styles, including pre-cut and formed leads, for manual insertion. Smooth and shining •Products meet EU-RoHS requirements DIMENSIONS Unit: mm STYLE DIMENSION Normal ød ød S H a L P P & H dimension on request ød L S a JPW-05 0.5±0.05 JPW-06 0.6±0.05 26.0±1.0 JPW-07 0.7±0.05 52.4±1.0 5.0±0.1 6.0±0.5 JPW-08 0.8±0.05 73.0±1.5 JPW-10 1.0±0.05 Revision: 201304 88 Explanations Of Ordering Code MFR -12 F Code 7 Tolerance T F Code 8 Packing Style Code 9 Temperature Coefficient of Resistance Code 1 - 3 Series Name Code 4 - 6 Power Rating See Index -05= ød0.5mm P= ±0.02 % T = Tape/Box -06 = ød0.6mm A= ±0.05 % R = Tape/Reel - = Base on Spec. -07 = ød0.7mm B= ±0.1 % B = Bulk 52- 100R Code 10 - 12 Forming Type Code 13 - 17 Resistance Value 26- = 26mm 0R1=0.1 52- = 52.4mm 100R=100 A = ±5 ppm/°C 73- = 73mm 10K=10,000 81- = 81mm 10M=10,000,000 -08 = ød0.8mm C= ±0.25% B = ±10 ppm/°C -10 = ød1.0mm D= ±0.5 % C = ±15 ppm/°C 91- = 91mm -14 = ød1.4mm F = ±1 % S = ± 20ppm/°C F = F Type -12 = 1/6W G= ±2 % D = ±25 ppm/°C FK = FK Type -25 = 1/4W J = ±5 % E = ±50 ppm/°C FKK= FKK Type 25S = 1/4WS K= ±10 % F = ±100 ppm/°C FFK= F-form Kink -50 = 1/2W - = Base on Spec. G = ±200 ppm/°C M = M-Type Forming 50S = 1/2WS H = ±250 ppm/°C MB = M-form W/flat 100 = 1W I = ±300 ppm/°C MT = MT Type Forming 1WS = 1WS J = ±350 ppm/°C MR = MR Type 200 = 2W AV = AVIsert 2WS = 2WS PN = PANAsert 204 = 0.4W 207 = 0.6W 300 = 3W 3WS = 3WS 3WM= 3WM 400 = 4W 500 = 5W 5WS = 5WS 5SS = 5WSS 700 = 7W 7WS = 7WS 10A = 10W 20A = 20W 30A = 30W 40A = 40W 50A = 50W 10S = 10WS 15A = 15W 25A= 25W 10B = 100W 25B = 250W EXCEPTION: • Cement series: • JPW series: <Code 8>: Special packing style code B: B ulk with wirewound or metal oxide sub-assembly for resistance value W: Bulk with ceramic based wirewound sub-assembly for resistance value M: Bulk with metal oxide sub-assembly for resistance value F: Bulk with Fiberglass based wirewound sub-assembly for resistance value <Code 10-12>: Without forming code Example: SQP500JB-10R <Code 13-17>: without resistance value code Example: JPW-06-T-52-