DG408MIL, DG409MIL Vishay Siliconix 8-Ch/Dual 4-Ch High-Performance CMOS Analog Multiplexers DESCRIPTION FEATURES The DG408 is an 8 channel single-ended analog multiplexer designed to connect one of eight inputs to a common output as determined by a 3-bit binary address (A0, A1, A2). The DG409 is a dual 4 channel differential analog multiplexer designed to connect one of four differential inputs to a common dual output as determined by its 2-bit binary address (A0, A1). Break-before-make switching action protects against momentary crosstalk between adjacent channels. • • • • • • • An on channel conducts current equally well in both directions. In the off state each channel blocks voltages up to the power supply rails. An enable (EN) function allows the user to reset the multiplexer/demultiplexer to all switches off for stacking several devices. All control inputs, address (Ax) and enable (EN) are TTL compatible over the full specified operating temperature range. Applications for the DG408, DG409 include high speed data acquisition, audio signal switching and routing, ATE systems, and avionics. High performance and low power dissipation make them ideal for battery operated and remote instrumentation applications. Designed in the 44 V silicon-gate CMOS process, the absolute maximum voltage rating is extended to 44 V. Additionally, single supply operation is also allowed. An epitaxial layer prevents latchup. For additional information please see Technical Article TA201. Low on-resistance - RDS(on): 100 Low charge injection - Q: 20 pC Fast transition time - tTRANS: 160 ns Low power - ISUPPLY: 10 μA Single supply capability 44 V supply max. rating TTL compatible logic BENEFITS • • • • • • Reduced switching errors Reduced glitching Improved data throughput Reduced power consumption Increased ruggedness Wide supply ranges (± 5 V to ± 20 V) APPLICATIONS • • • • • • • Data acquisition systems Audio signal routing ATE systems Battery powered systems High rel systems Single supply systems Medical instrumentation FUNCTIONAL BLOCK DIAGRAM AND PIN CONFIGURATION CerDIP DG408 CerDIP DG409 Top View Top View A0 EN VS1 S2 S3 S4 D 1 2 16 Decoders/Drivers 15 3 14 4 13 5 12 6 11 7 10 8 9 Document Number: 67952 S11-1003-Rev. A, 23-May-11 A1 A0 A2 EN GND V- V+ S1a S5 S2a S6 S3a S7 S4a S8 Da 1 2 16 Decoders/Drivers 15 3 14 4 13 5 12 6 11 7 10 8 9 A1 GND V+ S1b S2b S3b S4b Db www.vishay.com 1 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix DG408 DG409 Top View EN A0 NC A1 Top View A2 Key EN A0 NC A1 GND 3 2 1 20 19 Key 3 2 1 20 19 V- 4 18 V+ V+ S1a 5 17 S1b 16 NC NC 6 16 NC 7 15 S5 S2a 7 15 S2b 8 14 S6 S3a 8 14 S3b V- 4 18 GND S1 5 17 NC 6 S2 S3 LCC-20 LCC-20 9 10 11 12 13 9 10 11 12 13 S4 D NC S8 S7 S4a Da NC Db S4b DG408 DG409 Top View Top View A0 1 16 A1 A0 1 16 A1 EN 2 15 A2 EN 2 15 GND V- 3 14 GND V- 3 14 V+ S1 4 13 V+ S1a 4 13 S1b S2 5 12 S5 S2a 5 12 S2b S3 6 11 S6 S3a 6 11 S3b S4 7 10 S7 S4a 7 10 S4b D 8 9 S8 Da 8 9 Db FLATPACK TRUTH TABLE (DG408) FLATPACK TRUTH TABLE (DG409) A2 A1 A0 EN ON SWITCH A1 A0 EN ON SWITCH X X X 0 None X X 0 None 0 0 0 1 1 0 0 1 1 0 0 1 1 2 0 1 1 2 0 1 0 1 3 1 0 1 3 0 1 1 1 4 1 1 1 4 1 0 0 1 5 1 0 1 1 6 1 1 0 1 7 1 1 1 1 8 www.vishay.com 2 Notes • Logic “0” = VAL 0.8 V • Logic “1” = VAH 2.4 V • X = Do not care Document Number: 67952 S11-1003-Rev. A, 23-May-11 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix ORDERING INFORMATION (Hi-Rel) PART CONFIGURATION DG408 8:1 x 1 TEMP. RANGE - 55 °C to 125 °C PACKAGE ORDERING PART DG408AK DG408AK - 16-pin CerDIP DG408AK-E3 DG408AK-E3 - 9204201EA DG408AK/883 5962-9204201MEA LCC-20 Flat-pack 16 92042012A 92042012C 9204201XA 9204201XC DG409AK 16-pin CerDIP DG409 4:1 x 2 - 55 °C to 125 °C LCC-20 Flat-pack 16 GENERIC DG408AZ/883 DG408AL/883 DSCC NUMBER 5962-9204201M2A 5962-9204201M2C 5962-9204201MXA 5962-9204201MXC DG409AK - DG409AK-E3 DG409AK-E3 - 9204202EA DG409AK/883 5962-9204202MEA 92042022A 92042022C 9204202XA 9204202XC DG409AZ/883 DG409AL/883 5962-9204202M2A 5962-9204202M2C 5962-9204202MXA 5962-9204202MXC Note • Block diagram and pin configuration for Flat-pack 16 not shown. ABSOLUTE MAXIMUM RATINGS PARAMETER Voltages Referenced to VDigital Inputsa, V+ GND LIMIT 44 25 Current (any terminal) 30 Peak Current, S or D (pulsed at 1 ms, 10 % duty cycle max.) 100 Power Dissipation (Package)b V (V-) - 2 to (V+) + 2 or 20 mA, whichever occurs first VS, VD Storage Temperature UNIT (A suffix) - 65 to 150 16-pin CerDIPc 900 LCC-20d 750 mA °C mW Notes a. Signals on SX, DX or INX exceeding V+ or V- will be clamped by internal diodes. Limit forward diode current to maximum current ratings. b. All leads soldered or welded to PC board. c. Derate 12 mW/°C above 75 °C. d. Derate 10 mW/°C above 75 °C. Document Number: 67952 S11-1003-Rev. A, 23-May-11 www.vishay.com 3 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix SPECIFICATIONSa TEST CONDITIONS UNLESS OTHERWISE SPECIFIED PARAMETER SYMBOL V+ = 15 V, V- = - 15 V TEMP.b TYP.c VAL = 0.8 V, VAH = 2.4 VF A SUFFIX - 55 °C to 125 °C UNIT MIN.d MAX.d Analog Switch Analog Signal Rangee Drain-Source On-Resistance RDS(on) Matching Between Channelsg Source Off Leakage Current VANALOG DG408 DG409 DG409 15 Room 40 - 100 Full - - 125 RDS(on) VD = ± 10 V Room - - 15 IS(off) VS = ± 10 V, VD = ± 10 V, VEN = 0 V Room - - 0.5 0.5 50 ID(off) VD = ± 10 V, VS = ± 10 V, VEN = 0 V DG408 Drain On Leakage Current - 15 VD = ± 10 V, IS = - 10 mA DG409 DG408 - RDS(on) DG408 Drain Off Leakage Current Full ID(on) VS = VD = ± 10 V sequence each switch on DG409 Full - - 50 Room - -1 1 Full - - 100 100 Room - -1 1 Full - - 50 50 Room - -1 1 Full - - 100 100 Room - -1 1 Full - - 50 50 V nA Digital Control Logic High Input Voltage VINH Full - 2.4 - Logic Low Input Voltage VINL Full - - 0.8 Logic High Input Current IAH VA = 2.4 V, 15 V Full - - 10 10 Logic Low Input Current IAL VEN = 0 V, 2.4 V, VA = 0 V Full - - 10 10 Logic Input Capacitance Cin f = 1 MHz Room 8 - 250 V μA pF Dynamic Characteristics Transition Time tTRANS see figure 2 Full 160 - Break-Before-Make Interval tOPEN see figure 4 Room - 10 - Room 115 - 150 see figure 3 Full - - 225 Room 105 - 150 Q CL = 10 nF, VS = 0 V Room 20 - - Off Isolationh OIRR VEN = 0 V, RL = 1 k, f = 1 MHz Room - 75 - - Source Off Capacitance CS(off) VEN = 0 V, VS = 0 V, f = 1 MHz Room 3 - - Room 26 - - Enable Turn-On Time tON(EN) Enable Turn-Off Time tOFF(EN) Charge Injection Drain Off Capacitance Drain On Capacitance DG408 DG409 DG408 DG409 CD(off) CD(on) VEN = 0 V, VD = 0 V, f = 1 MHz Room 14 - - Room 37 - - Room 25 - - Full 10 - 75 Full 1 - 75 - Room 0.2 - 0.5 Full - - 2 Full - - 500 - ns pC pF Power Supplies Positive Supply Current I+ Negative Supply Current I- Positive Supply Current I+ Negative Supply Current I- www.vishay.com 4 VEN = VA = 0 V or 5 V VEN = VA = 0 V or 5 V μA mA μA Document Number: 67952 S11-1003-Rev. A, 23-May-11 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix SPECIFICATIONSa (Single Supply) TEST CONDITIONS UNLESS OTHERWISE SPECIFIED PARAMETER SYMBOL V+ = 12 V, V- = 0 V VAL = 0.8 V, VAH = 2.4 TEMP.b TYP.c VF A SUFFIX - 55 °C to 125 °C UNIT MIN.d MAX.d Analog Switch Drain-Source On-Resistancee, f RDS(on) VD = 3 V, 10 V, IS = - 1 mA Room 90 - - Switching Time of Multiplexere tTRANS VS1 = 8 V, VS8 = 0 V, VIN = 2.4 V Room 180 - - Enable Turn-On Timee tON(EN) VINH = 2.4 V, VINL = 0 V, VS1 = 5 V Room 180 - - Enable Turn-Off Timee tOFF(EN) Room 120 - - CL = 1 nF, VS = 0 V, RS = 0 Room 5 - - Dynamic Characteristics Charge Injectione Q ns pC Notes a. Refer to PROCESS OPTION FLOWCHART. b. Room = 25 °C, Full = as determined by the operating temperature suffix. c. Typical values are for DESIGN AID ONLY, not guaranteed nor subject to production testing. d. The algebraic convention whereby the most negative value is a minimum and the most positive a maximum, is used in this datasheet. e. Guaranteed by design, not subject to production test. f. VIN = input voltage to perform proper function. g. RDS(on) = RDS(on) max. - RDS(on) min. h. Worst case isolation occurs on channel 4 due to proximity to the drain pin. Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Document Number: 67952 S11-1003-Rev. A, 23-May-11 www.vishay.com 5 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix TYPICAL CHARACTERISTICS (25 °C, unless otherwise noted) 80 60 VS = 0 V for I D(off) VS = V D for ID(on) V+ = 15 V V- = - 15 V 40 60 CD(on) DG408 ID(off) CD(off) I D (pA) C S, D (pF) 20 40 DG409 ID(off) DG409 ID(on) 0 - 20 20 DG408 ID(on) CS(off) - 40 0 - 60 - 15 - 10 -5 0 5 10 15 0 2 VANALOG - Analog Voltage (V) 100 15 - 20 - 60 DG409 ID(on) - 100 5 0 DG408 ID(on), ID(off) - 140 - 15 V+ = 15 V V- = - 15 V 10 DG409 ID(off) IS(off) (pA) I D (pA) 20 V+ = 15 V V- = - 15 V VS = - VD for ID(off) VD = V S(open) for ID(on) 20 12 Drain Leakage Current vs. Source/Drain Voltage (Single 12 V Supply) Source/Drain Capacitance vs. Analog Voltage 60 4 6 8 10 VANALOG - Analog Voltage (V) V+ = 12 V V- = 0 V -5 - 10 - 10 -5 0 5 10 VD or V S - Drain or Source Voltage (V) 15 - 15 0 -5 5 VS - Source Voltage (V) - 10 10 15 Source Leakage Current vs. Source Voltage Drain Leakage Current vs. Source/Drain Voltage 2.0 - 100 mA VSUPPLY = ± 15 V - 10 mA 1.5 VEN = 2.4 V I- V TH (V) - 1 mA 1.0 - 100 µA - 10 µA VEN = 0 V or 5 V 0.5 - 1 µA - 0.1 µA 0.0 4 8 12 16 20 + VSUPPLY (V) Input Switching Threshold vs. Supply Voltage www.vishay.com 6 100 1K 10K 100K 1M 10M Switching Frequency (Hz) Negative Supply Current vs. Switching Frequency Document Number: 67952 S11-1003-Rev. A, 23-May-11 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix TYPICAL CHARACTERISTICS (25 °C, unless otherwise noted) 100 µA 100 mA VSUPPLY = 15 V 10 µA 10 mA 1 µA 100 nA I+, I- VEN = 2.4 V I+ I+ 1 mA 10 nA 1 nA 100 µA - (I-) VEN = 0 V or 5 V VSUPPLY = ± 15 V VA = 0 V VEN = 0 V 100 pA 10 µA 10 pA 100 1K 10K 100K 1M - 55 - 35 10M - 15 25 5 45 65 85 Switching Frequency (Hz) Temperature (°C) Positive Supply Current vs. Switching Frequency ISUPPLY vs. Temperature 105 125 90 CL = 10 000 pF VIN = 5 Vp-p 80 20 70 60 10 Q (pC) I+ (µA) 15 V+ = 15 V V- = - 15 V VIN = 0 V VEN = 0 V 50 V+ = 15 V V- = - 15 V 40 30 20 5 10 V+ = 12 V V- = 0 V 0 0 - 55 - 35 - 15 25 5 65 45 85 105 - 10 - 15 125 - 10 -5 5 0 10 15 Temperature (°C) VS - Source Voltage (V) Positive Supply Current vs. Temperature (DG408) Charge Injection vs. Analog Voltage 160 120 140 V+ = 7.5 V 100 ±5V 120 R DS(on) (Ω) R DS(on) (Ω) 80 ±8V ± 10 V ± 12 V 60 10 V 100 12 V 80 15 V 60 20 V 40 22 V 40 ± 20 V 20 0 - 20 V- = 0 V ± 15 V 20 0 - 16 - 12 -8 -4 0 4 8 12 VD - Drain Voltage (V) RDS(on) vs. VD and Supply Document Number: 67952 S11-1003-Rev. A, 23-May-11 16 20 0 4 8 12 16 20 22 VD - Drain Voltage (V) RDS(on) vs. VD and Supply (Single Supply) www.vishay.com 7 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix TYPICAL CHARACTERISTICS (25 °C, unless otherwise noted) 130 80 V+ = 15 V V- = - 15 V 70 85 °C 60 125 °C 50 90 85 °C 40 RDS(on) () R DS(on) (Ω) 125 °C 110 25 °C 30 25 °C 70 0 °C - 40 °C 50 20 0 °C - 40 °C - 55 °C - 55 °C 30 10 0 V+ = 12 V V- = 0 V 10 - 10 - 15 -5 5 0 10 0 15 6 8 10 12 VD - Drain Voltage (V) RDS(on) vs. VD and Temperature (Single Supply) RDS(on) vs. VD and Temperature - 150 1 RL = 1 kΩ V+ = 15 V V- = - 15 V RL = 1 kΩ - 130 0 V+ = 15 V V- = - 15 V Ref. 1 VRMS -1 LOSS (dB) - 110 (dB) 4 2 VD - Drain Voltage (V) - 90 Off-Isolation - 70 -2 -3 -4 Crosstalk - 50 RL = 50 Ω -5 - 30 -6 100 1K 10K 100K 1M 10M 10 100M 10 0 1K f - Frequency (Hz) 10K 100K 1M 10M 100M f - Frequency (Hz) Off Isolation and Crosstalk vs. Frequency Insertion Loss vs. Frequency 140 275 250 120 225 t (ns) t (ns) tTRANS 100 tOFF(EN) 200 tTRANS 175 tOFF(EN) tON(EN) 80 150 tON(EN) 125 60 ± 10 ± 12 ± 14 ± 16 ± 18 ± 20 ± 22 100 8 9 10 11 12 13 14 VSUPPLY (V) VSUPPLY (V) Switching Time vs. Bipolar Supply Switching Time vs. Single Supply www.vishay.com 8 15 Document Number: 67952 S11-1003-Rev. A, 23-May-11 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix SCHEMATIC DIAGRAM (Typical Channel) V+ VREF GND D A0 V+ Level Shift AX V- Decode/ Drive S1 V+ EN Sn V- Fig. 1 TEST CIRCUITS + 15 V V+ A2 S1 A1 ± 10 V S2 - S7 A0 DG408 S8 EN ± 10 V VO D GND V- 50 % 0V 35 pF 300 Ω 50 Ω Logic Input tr < 20 ns tf < 20 ns 3V - 15 V VS1 90 % Switch Output + 15 V VO 0V V+ A1 A0 ± 10 V S1 90 % VS8 S1a - S4a, Da DG409 S4b tTRANS ± 10 V S1 ON VO Db EN GND tTRANS S8 ON V300 Ω 50 Ω 35 pF - 15 V Fig. 2 - Transition Time Document Number: 67952 S11-1003-Rev. A, 23-May-11 www.vishay.com 9 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix TEST CIRCUITS + 15 V V+ S1 -5V EN S2 - S8 A0 DG408 A1 A2 GND VO D V- 50 Ω Logic Input 50 % 0V 35 pF 1 kΩ tr < 20 ns tf < 20 ns 3V tON(EN) - 15 V tOFF(EN) 0V + 15 V Switch Output VO V+ S1b 90 % -5V VO EN A0 A1 10 % S1a - S4a, Da S2b - S4b DG409 Db GND VO V- 50 Ω 35 pF 1 kΩ - 15 V Fig. 3 - Enable Switching Time + 15 V EN + 2.4 V V+ Logic Input All S and Da +5V tr < 20 ns tf < 20 ns 3V 50 % 0V A0 DG408 DG409 A1 A2 GND 50 Ω Db, D VO VS V- - 15 V 300 Ω 80 % Switch Output 35 pF VO 0V tOPEN Fig. 4 - Break-Before-Make Interval www.vishay.com 10 Document Number: 67952 S11-1003-Rev. A, 23-May-11 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix TEST CIRCUITS + 15 V Rg V+ SX Logic Input EN OFF ON OFF 0V A0 Channel Select 3V VO D A1 CL 10 nF A2 GND V- ΔVO Switch Output ΔVO is the measured voltage due to charge transfer error Q, when the channel turns off. Q = CL x ΔVO - 15 V Fig. 5 - Charge Injection + 15 V + 15 V VIN V+ SX VS Rg = 50 Ω VIN SX VS S8 A0 D V+ S1 S8 VO A1 A0 A2 GND RL 1 kΩ V- EN Rg = 50 Ω VO D A1 A2 GND EN RL 1 kΩ V- - 15 V VOUT Off Isolation = 20 log - 15 V VIN Crosstalk = 20 log VOUT VIN Fig. 7 - Crosstalk Fig. 6 - Off Isolation VS S1 + 15 V + 15 V V+ V+ Rg = 50 Ω S1 Meter A2 A0 D VO A1 Channel Select HP4192A Impedance Analyzer or Equivalent S8 A1 A0 A2 GND EN V- RL 1 kΩ - 15 V Insertion Loss = 20 log D GND VOUT EN f = 1 MHz V- 15 V VIN Fig. 8 - Insertion Loss Document Number: 67952 S11-1003-Rev. A, 23-May-11 Fig. 9 - Source Drain Capacitance www.vishay.com 11 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 DG408MIL, DG409MIL Vishay Siliconix APPLICATION HINTS Overvoltage Protection A very convenient form of overvoltage protection consists of adding two small signal diodes (1N4148, 1N914 type) in series with the supply pins (see figure 10). This arrangement effectively blocks the flow of reverse currents. It also floats the supply pin above or below the normal V+ or V- value. In this case the overvoltage signal actually becomes the power supply of the IC. From the point of view of the chip, nothing has changed, as long as the difference VS - (V-) does not exceed + 44 V. The addition of these diodes will reduce the analog signal range to 1 V below V+ and 1 V above V-, but it preserves the low channel resistance and low leakage characteristics. V+ 1N4148 SX D Vg DG408 1N4148 V- Fig. 10 - Overvoltage Protection Using Blocking Diodes Differential 4-Channel Sequential Multiplexer/Demultiplexer 8-Channel Sequential Multiplexer/Demultiplexer + 15 V V+ S1 GND V+ S1a V- S3 S4 DG408 D NC DM7493 QB QC S2b QA r01 r02 GND NC Db S3b A1 A2 S4b A0 EN QD AIN Differential Analog Outputs (Inputs) S1b + 15 V BIN Da DG409 S7 Clock In V- S4a S6 + 15 V GND S3a Differential Analog Inputs (Outputs) S5 S8 A0 - 15 V S2a Analog Output (Input) S2 Analog Inputs (Outputs) + 15 V - 15 V Clock In J Q 1/2 MM74C73 CLK K CLEAR + 15 V Q GND A1 EN J Q 1/2 MM74C73 CLK NC Q K NC CLEAR 6 Enable In Reset Enable (MUX On-Off Control) Fig. 11 Vishay Siliconix maintains worldwide manufacturing capability. Products may be manufactured at one of several qualified locations. Reliability data for Silicon Technology and Package Reliability represent a composite of all qualified locations. For related documents such as package/tape drawings, part marking, and reliability data, see www.vishay.com/ppg?70062. www.vishay.com 12 Document Number: 67952 S11-1003-Rev. A, 23-May-11 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 Package Information Vishay Siliconix CERDIP: 16ĆLEAD 16 15 14 13 12 11 10 9 E1 E 1 2 3 4 5 6 7 8 D S Q1 A A1 L1 L e1 C B B1 MILLIMETERS Dim A A1 B B1 C D E E1 e1 eA L L1 Q1 S ∝ eA INCHES Min Max Min Max 4.06 5.08 0.160 0.200 0.51 1.14 0.020 0.045 0.38 0.51 0.015 0.020 1.14 1.65 0.045 0.065 0.20 0.30 0.008 0.012 19.05 19.56 0.750 0.770 7.62 8.26 0.300 0.325 6.60 7.62 0.260 0.300 2.54 BSC ∝ 0.100 BSC 7.62 BSC 0.300 BSC 3.18 3.81 0.125 0.150 3.81 5.08 0.150 0.200 1.27 2.16 0.050 0.085 0.38 1.14 0.015 0.045 0° 15° 0° 15° ECN: S-03946—Rev. G, 09-Jul-01 DWG: 5403 Document Number: 71282 03-Jul-01 www.vishay.com 1 Packaging Information Vishay Siliconix 20ĆLEAD LCC A1 D L1 A Dim 28 e 1 2 E A A1 B D E e L L1 MILLIMETERS Min Max INCHES Min Max 1.37 2.24 0.054 0.088 1.63 2.54 0.064 0.100 0.56 0.71 0.022 0.028 8.69 9.09 0.342 0.358 8.69 9.09 0.442 0.358 1.27 BSC 0.050 BSC 1.14 1.40 0.045 0.055 1.96 2.36 0.077 0.093 ECN: S-03946—Rev. B, 09-Jul-01 DWG: 5321 L Document Number: 71290 02-Jul-01 B www.vishay.com 1 Package Information www.vishay.com Vishay Siliconix Flat Pack: 16 Leads D L E3 16 15 14 13 12 11 10 9 E2 1 2 3 4 5 6 7 8 C e Q B S DIM. A S1 MILLIMETERS INCHES MIN. MAX. MIN. MAX. A 1.52 2.54 0.060 0.100 B 0.38 0.48 0.015 0.019 C 0.10 0.15 0.004 0.006 D 9.91 10.41 0.390 0.410 E 6.60 7.11 0.260 0.280 E2 4.45 4.95 0.175 0.195 E3 0.76 1.27 0.030 0.050 e 1.27 BSC 0.050 BSC L 7.62 8.89 0.300 0.350 Q 0.66 1.14 0.026 0.045 S - 1.14 - 0.045 S1 0.013 - 0.005 - ECN: S15-1674-Rev. D, 27-Jul-15 DWG: 5343 Revison: 27-Jul-15 1 Document Number: 74786 THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 Legal Disclaimer Notice www.vishay.com Vishay Disclaimer ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE. Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product. Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. 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