Automotive AntennaGuard Size (EIA) L W T BL VC Varistor Chip AS 06 AG Series Case Type AS= 04=0402 Automotive 06 = 0603 18 3R0 Working Voltage Capacitance 3R0=3pF 18=18VDC 120=12pF Y A 0402 0603 1.00 ±0.10 (0.040 ±0.004) 0.50 ±0.10 (0.020 ±0.004) 0.60 Max. (0.024 Max.) 0.25 ±0.15 (0.010 ±0.006) 1.60±.15 (0.063±0.006) 0.80±0.15 (0.032±0.006) 0.90 Max (0.035 Max.) 0.35±0.15 (0.014±0.006) T Non-Std Not Termination Cap Tol Applicable T=Ni/Sn Y=Max plated 1=Pd/Ag/Pt 1 A Reel Reel 1=7” A=4k 3=13” or 10k W=7” (0402 only) Working Voltage (DC) Working Voltage (AC) Maximum Leakage Current Typical Capacitance Case Size Elements Jump Start VCAS04AG183R0Y ≤ 18 ≤ 14 0.1 3 0402 1 27.5 VCAS06AG183R0Y ≤ 18 ≤ 14 0.1 3 0603 1 27.5 VCAS06AG18120Y ≤ 18 ≤ 14 0.1 12 0603 1 27.5 AVX Part Number VW(DC) DC Working Voltage [V] Vw(AC) AC Working Voltage [V] Maximum leakage current at the working voltage [µA] IL Cap Typical capacitance [pF] @ frequency specified and 0.5VRMS AEC-Q200 Pulse Test AEC-Q200-002 10.00% % Vb Change 5.00% 0.00% -5.00% -10.00% 6 KV CONTACT 12KV AIR 16KV AIR 25 KV AIR ESD PULSE VCAS04AG183R0Y VCAS06AG183R0Y VCAS06AG18120Y S21 Response Insertion Loss (dB) 10.0 0.0 -10.0 -20.0 -30.0 0 1 VCAS06AG1812ROY 10 Frequency (M Hz) VCAS04AG183ROY 100 1000 VCAS06AG183ROY 10000 No. Item Requirement 1 Operating Temp. -55°C to +125° C 2 Appearance/Dimensions No visible damage Dimensions: see par 6 3 Solderability The dipped surface shall be at least 95% covered with a new smooth solder coating. Test Method Visual examination at 10% magnification Dimensions verification by class2 caliper Soak in eutectic solder bath of temperature at 230+/-5°C for 5sec. a. b. 4 Solder heat resistance 5 Humidity Life 6 Life Test No mechanical damage. Capacitance: 3 pF Leakage: <100nA Capacitance: 3 pF Leakage: <100nA Capacitance: 3 pF Leakage: <100nA Read capacitance and leakage. Soak in eutectic solder bath of temperature at 260+/-5°C. for 10+/-1sec. c. Natural cool down to +25°C d. Read capacitance and leakage after 24+/2 hours. a. Read capacitance and leakage. b. Leave device in chamber of +85+/-3°C, 85+/5% relative humidity for 1,000± 5hours. c. Read capacitance and leakage after 3-4 hours conditioning at 25+/-5°C a. Read capacitance and leakage. b. Apply 100% of working voltage at test temperature of 125+/-4°C for 1,000+48/-0hours. c. Read capacitance and leakage after 24+/-2 hours conditioning at 25+/- 5°C