DUAL POLE OptoMOS RELAYS XBB170 The XBB170 is a 350V, 120mA, 500 type 2-Form-B solid state relay. Small & Pin DIP Package Telecommunications Low Drive Power Requirements (TTUYGMOS # Telecom Switching Compatible} # Tip/Ring Circuits No Moving Parts Modem Switching (Laptop, Notebook, Pocket # High Reliability Size) Arc-Free With No Snubbing Circuits Hookswitch 3750V og Input/Output Isolation # Dial Pulsing FCC Compatible # Ground Start VDE Compatible # Ringer Injection No EMI/RFI Generation Instrumentation Machine Insertable, Wave Solderable # Multiplexers Current Limiting, Surface Mount and Tape & Reel Data Acquisition Versions Available # Electronic Switching # |/O Subsystems Meters (Watt-Hour, Water, Gas) Medical EquipmentPatient/Equipment Isolation # Security @ Aerospace Industrial Gontrols UL Recognized: File Number E76270 CSA Certified: File Number LR 43639-10 BSI Certified to: BS EN 60950:1992 (BS7002:1992) Certificate #: 7344 # BS EN 41003:1993 Certificate #: 7344 Paramler 0 EES P: Flatpack Package eee ears S: Surface Mount Package _ Tefal Power: Disa TR: Tape & Reel | Gapacitan : Switching Characteristics of Normally Closed (Form B) Devices 3750 -40 -40 1 Derate Linearly 1.33 mwC Derate Linearly 1.67 mwit Note: For Mechanical Dimensions See Pages 396-401 www.cpclare.com CORPORATION.XBB170 PARAMETERS CONDITIONS MIN MAX - 350 . - 100 10ms - 350 |=1 20mA - 50 V,=350mA . 1 |, = 5MA,V,=10V - 5 |, = 5mA,V,=10 - 5 50V; f = 1MHz - - |= 120mA 5 50 - 0.4 - |= 5mA 0.9 1.4 - 5 Ve 5V - 10 - Mg 3750 - *Note: If both poles operate simulatarieously load current must be derated so as not to exceed the package power dissipation value. XBB170 Pinout AC/DC Configuration 1 8 + Control - Switch #104 ae -O Load - += Cell: Load - 3 6 + Control - Switch #2 04 Oo Load - } Cel 5 PO Load - 2 Control - Switch #1 0-4 4 Control - Switch #2 04 Switch #1 Switch #1 Switch #2 Switch #2 Note: For Mechanical Dimensions See Pages 396-401 CORPORATIONDUAL POLE OptoMOS RELAYS XBB170 XBB170 XBB170 Typical LED Forward Voltage Drop Typical On-Resistance Distribution XBB170 (N=50 Ambiant Temperature = 25C) (N=50 Ambiant Tamparatura = 25C) Typical Blocking Voltage Distribution Ip = 5mADC {Load Current = 100mAD) (N=50 Ambiant Tamperature = 25C) 20 20 20 Z 25 z = & 21s E15 2 20 2 2 8 8 gts B10 8 10 = = = 10 a a, a 5 5 0 0 oo o KE SOE WA? 4490 4.24 123 1.25 30.59 81.36 32.13 32.90 3266 34.43 35.20 424.0 429.3 434.5 489.7 444.9 450.1 455.4 LED Forward Voltage Drop () On-Resistance (0) Blocking Voltage (V) XBB170 XBB170 XBB170 Typical Il for Switch Operation Typical Ir tor Switch Dropout Typical Turn-On Time (N=50 Ambient Temperature = 25C) (N=50 Ambiant Tamparatura = 25C} (N=50 Ambiant Tamperatura = 25C) (Load Current = 100mADC) (Load Currant = 100mADC) (Load Currant = 100mADC) 20 20 20 z z z E15 Es Es 8 8 3 10 3 10 $10 = ~ = a 5 a 5 a 5 0 LEE SEES 9 EE Saas g EEE 2 0.44 O50 O55 062 069 O75 081 044 O50 O56 062 0.69 O75 0.84 O67 O75 083 091 O98 1.06 1.14 LED Current (mA) LED Current (mA) Turn-On (ms) XBB170 Typical Turn-Ott Time XBB170 (N=50 Ambient Temperature = 25C) XBB170 Typical Laakaga vs. Tamparatura {Load Current = 100mAD) Typical Load Current vs. Temperature (Measured across Pins 4 & 6) 28 ao = 60 oS 0.016 Ton ee pe o.014 = 20 = o.o12 = z 5 15 2 = oor e o.008 10 8 0.006 i 3 i, 5 0.004 0.002 0 0 O41 O14 O47 O19 022 025 028 40 20 0 20 40 60 80 100 120 40-20 Oo 20 40 60 80 100 Turn-Off (ms) Temperature (C) Temperature (C) XBB170 XBB170 XBB170 Typical Blocking Voltage Typical Turn-On vs. Tamperatura Typical Turn-Off vs. Tamperature vs. Tamperatura {Load Current = 100mADC) (Load Current = 100mADC} 0.50 1.90 * Ta Toon pe fae 045 Tepes) = 160 Tan)jersaapoccapome] eas : 0.40 1.40 = = = e 0.35 # 120 2 = O80 = 1.00 3 0.25 5 5 0.20 080 5 F015 e360 & 0.10 a40 a 0.05 0.20 40 20 oO 20 40 60 980 100 40 20 0 20 40 60 80 100 120 40 20 0 20 40 60 80 100 120 Temperature (C) Temperature (C) Temperature (C) www.cpclare.com CORPORATIONDUAL POLE OpiteMOS RELAYS XBB170 XBB170 XBBi70 XBB170 Typical LED Forward Voltage Drop Typical Turn-On vs. LED Forward Current Typical Turn-Off vs. LED Forward Current vs. Tamperatura (Load Current = 100mADC) {Load Currant = 100mADC. ) = 10 Qa 2 a ~ vo 7 a 2 E s z E : z 2 a a a 40 20 0 20 40 60 so 100 120 0 5 10 15 20 25 30 35 40 45 50 0 5 10 15 20 25 30 35 40 45 50 Temperature (C) LED Forward Current (mA) LED Forward Current(mA) XBB170 XBB170 XBB170 Typical Ir tor Switch Operation Typical Ir for Switch Dropout Typical On-Rasistanca vs. Temperature vs. Tamperature vs. Temperature {Load Currant = 100mADC; Ip = 2mADC} (Load Currant = 100mADC} 0 (Load Current = 100mADC} 70 60 ST Pe Tan nan eons Fone eS 60 & so < i 3 = = e 40 < < 3 g E gq 30 5 5 3 6 6 z 20 a a 3 4 4 10 0 SPSS PSO PICS : : ASSES : oS Saal eae 40-20 0 20 40 60 80 100 120 40 20 0 20 40 60 80 100 120 40 -20 O 20 40 60 go 100 120 Temperature (C) Temperature (C) Temperature (C) XBB170 Typical Load Current vs. Load Voltage (Ambient Temperature = 25C) XBB170 130 lp = 5mADC Energy Rating Curve ie Ton pe Tan EES 80 60 z E 40 = = 2 5 3 Oo -20 o -40 i 60 3 -80 -1100 -120 Q - 1Qus 1001s ims 1Oms 100ms 1s 10s 1003 Load Voltage (V} Time North America: 1-800-CPCLARE Europe: 32-11-300868 Asia: 886-2-2523-6368 n: 81-3-3980-2212 CORPORATION