BARRIS DG300A, DG30TA, DG302A, DG303A TTL-Compatible, August 1997 CMOS Analog Switches Features Description The DG300A through DG303A family of monolithic CMOS * Low Power Consumption . , a switches are truly compatible second source of the original man- + Break-Before-Make Switching (Typ) ufacturer. The switches are latch-proof and are designed to ~ TORR ee eee eee 130ns block signals up to 30Vp_p when OFF. Featuring low leakage Sa 0) 150ns and low power consumption, these switches are ideally suited . for precision application in instrumentation, communication, * TIL, CMOS Compatible data acquisition and battery powered applications. Other key * LOWIDS(ON) - +--+ 2 2s eee tree etree eee <50Q features include Break-Before-Make switching, TTL and CMOS * Single Supply Operation compatibility, and low ON resistance. Single supply operation - True Second Source (for positive switch voltages) is possible by connecting V- to OV. Ordering Information TEMP. PKG. TEMP. PKG. PART NUMBER | RANGE (C) PACKAGE NO. PART NUMBER | RANGE (C) PACKAGE NO. DG300AAK -55to 125 |14Ld CERDIP F14.3 DG301ACJ 0 to 70 14 Ld PDIP E14.3 DG301AAK -55to 125 |14Ld CERDIP F14.3 DG302ACJ 0 to 70 14 Ld PDIP E14.3 DG302AAK -55to 125 |14Ld CERDIP F14.3 DG303ACJ 0 to 70 14 Ld PDIP E14.3 DG303AAK -55to 125 |14Ld CERDIP F14.3 DG300AAA -55t0 125 |10Pin Metal Can |7T10.B DG300ABK -25 to 85 14 Ld CERDIP F14.3 DG301AAA -55t0 125 |10Pin Metal Can |7T10.B DG301ABK -25 to 85 14 Ld CERDIP F14.3 DG303ACY 0 to 70 16 Ld SOIC M16.3 DG302ABK -25 to 85 14 Ld CERDIP F14.3 DG300AAA/883B -55t0 125 |10Pin Metal Can |7T10.B DG303ABK -25 to 85 14 Ld CERDIP F14.3 DG300AAK/883B -55to 125 |14Ld CERDIP F14.3 DG300ACK 0 to 70 14 Ld CERDIP F14.3 DG301AAA/883B -55t0 125 |10Pin Metal Can |7T10.B DG301ACK 0 to 70 14 Ld CERDIP F14.3 DG301AAK/883B -55to 125 |14Ld CERDIP F14.3 DG303ACK 0 to 70 14 Ld CERDIP F14.3 DG302AAK/883B -55to 125 |14Ld CERDIP F14.3 DG300ACJ 0 to 70 14 Ld PDIP E14.3 DG303AAK/883B -55to 125 |14Ld CERDIP F14.3 Functional Diagrams and Pinouts DG300A DG300A (METAL CAN) DG300A (CERDIP, PDIP) TOP VIEW TOP VIEW V+ (SUBSTRATE AND CASE) VU S1 o}-__o"-0_}_-0 D I NC}1 14] V: Ei ia] vs I IN +1)>- ; mB 3] De ne [BI 2] Nc ~etf ->-: sf ils l so 1 3 ne [5] Ho] NC > ? IN; [6 [9] IN2 nD [7] 8 | v- TRUTH TABLE LOGIC SWITCH 0 OFF 1 ON Logic 0 <0.8V, Logic 1 > 4.0V; Two SPST switches per package (switches shown for Logic 1 input) CAUTION: These devices are sensitive to electrostatic discharge. Users should follow proper IC Handling Procedures. File Number 31 19.1 Copyright Harris Corporation 1997 Pyrig P 13-21DG300A, DG301A, DG302A, DG303A Functional Diagrams and Pinouts (continued) DG301A DG301A (METAL CAN) DG301A (CERDIP, PDIP) TOP VIEW TOP VIEW V+ (SUBSTRATE AND CASE) vu $1 o_o 10} 0 p, Ne [7 ha] V+ I I Dy 2 | D2 I I I $1 4 | S2 I I ne [5] fo] Nc wtf >-: wi ] Nc anp [7 8 | v- TRUTH TABLE LOGIC SWITCH 1 SWITCH 2 0 OFF ON 1 ON OFF S3 INy DG302A DG303A Logic O <0.8V, Logic 1 > 4.0V; One SPDT switch per package (switches shown for Logic 1 input). DG302A (CERDIP, PDIP) TOP VIEW \ TRUTH TABLE ne [7] ha] vs LOGIC SWITCH ss [2| 3] S4 0 OFF bs [3 f2] Da 1 ON D1 [4 14] De Logic O <0.8V, Logic 1 > 4.0V; 316 Ho] Sz Two DPST switch per package (switches shown for Logic 1 input) INx [6] [9] No anp [7 8 | v- DG303A (CERDIP, PDIP) DG303ACY (SOIC) TOP VIEW TOP VIEW Vv VW ne [7] 4] v+ ne [i] 6] V+ ss [2| 3] S4 s3 2 13] Sq Ds [3] 2] D4 bs [3] 14] Da s, [5 12] So 1 [5 fo] 2 IN; [6] Ha] IN2 IN [6 [9 | IN2 eno [7] fa] v- Gnp [77 8] v- Ne [8] [9] Ne TRUTH TABLE LOGIC SWITCH 1 AND 2 SWITCH 3 AND 4 0 OFF ON 1 ON OFF Logic O <0.8V, Logic 1 > 4.0V; Two SPDT switch per package (switches shown for Logic 1 input) 13-22DG300A, DG301A, DG302A, DG303A Absolute Maximum Ratings Thermal Information V4 to Ve eee ee +44.0V Thermal Resistance (Typical, Note 2) Oya (CCIW) 85 (CCW) V-toGND.. 0... ee -25V SOIC Package................... 100 N/A Vin to Ground (Note 1).................00. (V- - 2V), (V+ + 2V) PDIP Package................... 100 N/A Vg or Vp to V+ (Note 1). 0.0.0.0... eee. +2, (V- - 2V) CERDIP Package ................ 75 20 Vg or Vp to V- (Note 1)............. 000.002.0080. -2, (V+ 4+ 2V) Metal Can Package............... 160 75 Current, Any Terminal Except SorD.................... 30mA Maximum Junction Temperature Continuous Current, SorD ...............0..0.000005. 30mA Hermetic Packages ................. 000000000000 175C Peak Current, S or D Plastic Packages .............0.. 0.0.0. c eee eee eee 150C (Pulsed at ms, 10% Duty Cycle Max)................ 100mA Maximum Storage Temperature Range . was (C SUffIKX) cee eee -65C to 125C Operating Conditions (A and B Sutlix).... 0000 ce ccc eee cece eee -65C to 150C Voltage Range ............ 00... ee eee +15V Maximum Lead Temperature (Soldering, 10s) ............ 300C Temperature Range (SOIC - Lead Tips Only) (C Suffix). 000 eee 0C to 70C (B Suffix). 0 eee -25C to 85C (A SUffiX). eee ee -55C to 125C Input Low Voliage.. 0.0... eee eee 0.8V (Max) Input High Voltage ..............0 0... e eee eee 4.0V (Min) Input Rise and Fall Time......................0. 00000. <20ns CAUTION: Stresses above those listed in Absolute Maximum Ratings may cause permanent damage to the device. This is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. NOTES: 1. Signals on Vs, Vp or Vij exceeding V+ or V- will be clamped by internal diodes. Limit diode toward current to maximum current ratings. 2. 8jq is measured with the component mounted on an evaluation PC board in free air. Electrical Specifications v+ = +15v, v- = -15V, GND = OV, Ta = 25C DG300A - DG303AA DG300A - DG303AB/C (NOTE 7) (NOTE 7) PARAMETER TEST CONDITIONS MIN TYP MAX MIN TYP MAX | UNITS DYNAMIC CHARACTERISTICS Turn-ON Time, ton See Figure 3 - 150 300 - 150 - ns Turn-OFF Time, torr See Figure 3 - 130 250 - 130 - ns Break-Before-Make See Figure 2, DG301A/DG303A - 50 - - 50 - ns Interval, ton - toFF Charge Injection, Q CL =10nF, Rg = 0, Vg =0 - 3 - - 3 - mV Source OFF Capacitance, | f= 1MHz, Vs=0 - 14 - - 14 - pF Cs(OFF) Vin = 0.8V or Drain OFF Capacitance, |YIN=4V [yn Zo - 14 - - 14 - pF CD(OFF) Channel ON Capacitance, Vs=Vp=0 - 40 - - 40 - pF Cp(ON) + Cs(ON) Input Capacitance, Ciy f = 1MHz Vin=0 - 6 - - 6 - pF Vin = 15V - 7 - - 7 - pF OFF Isolation Vin = 9, RL = 1K, Vg=1VRws. - 62 - - 62 - dB (Note 9) f = 500kHz Crosstalk - 74 - - 74 - dB (Channel-to-Channel) INPUT Input Current with Voltage | Vij = 5.0V -1 -0.001 - -1 -0.001 - pA High, |INH Vin = 15.0V - 0.001 1 - 0.001 1 LA Input Current with Voltage | Vix = OV -1 -0.001 - -1 -0.001 - pA Low, TN ANALOG SWITCH Analog Signal Range, Ig = 10mA, Vix = 0.8V or 4V -15 - 15 -15 - 15 Vv VANALOG 13-23DG300A, DG301A, DG302A, DG303A Electrical Specifications V+ = +15V, V- = -15V, GND = OV, Ta = 25C (Continued) DG300A - DG303AA DG300A - DG303AB/C (NOTE 7) (NOTE 7) PARAMETER TEST CONDITIONS MIN TYP MAX MIN TYP MAX | UNITS Drain-Source ON Vin = 0.8V or [Ig =-10mA, - 30 50 - 30 50 Q Resistance, 'DS(ON) Vin = 4.0V Vp =10V Ig = 10mA, - 30 50 - 30 50 Q Vp =-10V Source OFF Leakage Vin=0.8V or | Vs = 14V, - 0.1 1 - 0.1 5 nA Current, IS(OFF) Vin = 4.0V Vp =-14V Vg = -14V, -1 -0.1 - 5 -0.1 - nA Vp = 14V Drain OFF Leakage Vin=0.8V or [Vs =-14V, - 0.1 1 - 0.1 5 nA Current, ID(OFF) Vin = 4.0V Vp = 14V Vg = 14V, -1 -0.1 - 5 -0.1 - nA Vp = -14V Drain ON Leakage Vin=0.8Vor [Vp =Vs=14V - 0.1 1 - 0.1 5 nA Current, ID(ON) ViIN=4.0V 0 WVnaVeg=-14v | -2 0.1 - 5 0.1 - nA POWER SUPPLIES Positive Supply Current, I+ | Vij, = 4V (One Input) - 0.23 0.5 - 0.23 0.5 mA Negative Supply Current, I- (All Others = 0) -10 -0.001 - -10 -0.001 - HA Positive Supply Current, I+ | Vij = 0.8V (All Inputs) - 0.001 10 - 0.001 10 HA Negative Supply Current, I- -10 -0.001 - -10 -0.001 - HA Electrical Specifications V+ = +15v, V- = -15V, GND = OV, T, = Over Temperature Range DG300A - DG303AA DG300A - DG303AB/C (NOTE 7) (NOTE 7) PARAMETER TEST CONDITION MIN TYP MAX MIN TYP MAX | UNITS INPUT Input Current with Voltage | Vix = 5.0V -1 - - - - - HA High. TINH Vin = 15.0V - - 1 - - - uA Input Current with Voltage | Vix = OV -1 - - - - - HA Low, liNL ANALOG SWITCH Analog Signal Range, Ig = 10mA, Vix = 0.8V or 4V -15 - 15 - - - Vv VANALOG Drain-Source ON Vin = 0.8V or [lg = -10mA, - - 75 - - - Q Resistance, ps(ON) Vin = 4.0V Vp = 10V Ig = 10mA, - - 75 - - - Q Vp = -10V Source OFF Leakage Vin = 0.8V or | Vs = 14V, - - 100 - - - nA Current, IS(OFF) Vin = 4.0V Vp =-14V Vs = -14V, -100 - - - - - nA Vp = 14V Drain OFF Leakage Vin =0.8V or | Vs = -14V, - - 100 - - - nA Current, ID(OFF) Vin = 4.0V Vp = 14V Vg = 14V, -100 - - - - nA Vp = -14V Drain ON Leakage Vin =0.8V or | Vp =Vs = 14V - - 100 - - - nA Current, ID(ON) Vin = 4.0V Vp = Vg = -14V 200 ~ ~ ~ ~ ~ nA 13-24DG300A, DG301A, DG302A, DG303A Electrical Specifications V+ = +15v, V- = -15V, GND = OV, Ta = Over Temperature Range (Continued) DG300A - DG303AA DG300A - DG303AB/C (NOTE 7) (NOTE 7) PARAMETER TEST CONDITION MIN TYP MAX MIN TYP MAX UNITS POWER SUPPLIES Positive Supply Current, I+ | Vin = 4V (One Input) - - 1 - - - mA Negative Supply Current, (All Others = 0) -100 - - - - - HA |- Positive Supply Current, I+ | Vij = 0.8V (All Inputs) - - 100 - - - pA Negative Supply Current, -100 - - - - - HA |- NOTES: 3. Device mounted with all leads soldered or welded to PC board. . Derate 11mW/C above 75C . Derate 6.5mW/C above 25C. . Derate 6mMW/PC above 75C. . For design only, not 100% tested. oN oa ap sheet. 9. OFF isolation = 20 Log Vs/Vp, where Vg = input to OFF switch, and Vp = output. . The algebraic convention whereby the most negative value is a minimum, and the most positive value is a maximum, is used in this data Pin Descriptions PIN | SYMBOL | DESCRIPTION PIN SYMBOL DESCRIPTION DG300A 8 NC No Connection 1 NC No Connection 9 NC No Connection 2 Dy Drain (Output) Terminal for Switch 1 10 So Source (Input) Terminal for Switch 2 3 NC No Connection 11 NC No Connection 4 S; Source (Input) Terminal for Switch 1 12 Do Drain (Output) Terminal for Switch 2 5 NC No Connection 13 NC No Connection 6 IN4 Logic Control for Switch 1 14 V+ Positive Power Supply Terminal 7 GND Ground Terminal (Logic Common) DG302A, DG303A 8 V- Negative Power Supply Terminal 1 NC No Connection 9 INo Logic Control for Switch 2 2 $3 Source (Input) Terminal for Switch 3 10 NC No Connection 3 D3 Drain (Output) Terminal for Switch 3 11 NC No Connection 4 Dy Drain (Output) Terminal for Switch 1 12 So Source (Input) Terminal for Switch 2 5 $1 Source (Input) Terminal for Switch 1 13 Da Drain (Output) Terminal for Switch 2 6 IN4 Logic Control for Switch 1 14 V+ Positive Power Supply Terminal 7 GND Ground Terminal (Logic Common) DG301A 8 V- Negative Power Supply Terminal 1 NC No Connection 9 INo Logic Control for Switch 2 2 Dy Drain (Output) Terminal for Switch 1 10 So Source (Input) Terminal for Switch 2 3 NC No Connection 11 Do Drain (Output) Terminal for Switch 2 4 S; Source (Input) Terminal for Switch 1 12 D4 Drain (Output) Terminal for Switch 4 5 IN Logic Control for Switches 13 $4 Source (Input) Terminal for Switch 4 6 GND Ground Terminal (Logic Common) 14 V+ Positive Power Supply Terminal 7 V- Negative Power Supply Terminal 13-25DG300A, DG301A, DG302A, DG303A Test Circuits and Waveforms AVo Rs s D. { x x of ) _/f Vb LA INx = Vs = 10,000pF IN TL x ON ON | & OFF FIGURE 1. CHARGE INJECTION TEST CIRCUIT LOGIC 1 = SWITCH ON LOGIC Vv 50% LOGIC 7 om fos V+ +15V Vi ; SWITCH s1 Vg1=3V Dy OUTPUT Sy o o o oO Vo1 Y SWITCH Vs2 = 3V De OUTPUT y S206 oro oO: Vo2 01 [Sag bag Teo Tei LOGIC = s s 33pF 1 330F Vso OUTPUT >> Ka Pe Ti P T P Voz ov SWITCH 50% OUTPUT = == GND V- -15V = FIGURE 2. BREAK-BEFORE MAKE TEST CIRCUIT (DG301A, DG303A) ? V+ +15V LOGIC 1 = SWITCH ON SWITCH LOGIC VINH SY 50% N Vs =3V OUTPUT INPUT oy A \ S 6 oo o. . ms Oo Vo t, < 20ns 20 tp < 20ns Vs I Loic 4 st : OUTPUT 300 p 9 SWITCH 90% OUTPUT 10% | | ov = == GND V- -15V = = ton > < torr > < FIGURE 3. toy and torr TEST CIRCUIT 13-26DG300A, DG301A, DG302A, DG303A Die Characteristics DIE DIMENSIONS: PASSIVATION: 89 mils x 99 mils x 12 mils +2 mils Type: PSG Over Nitride : PSG Thickness: 7kA +1.4kA | METALLIZATION: Nitride Thickness: 8kA +1.2kA Type: Al WORST CASE CURRENT DENSITY: 1 x 10 A/cm? Thickness: 10kA +1kA Metallization Mask Layouts DG300A DG301A PING PIN7 = PIN8 PIN 9 PING PIN7 PIN8 IN4 NC GND Vv. IN2 IN 4 NC GND y. DG302A DG303A ace ~ PIN6 PIN7 PIN8 PIN9 PIN6 NC PIN7 PIN8 PINS NC GND Ve IN2 IN 1 GND v- IN2 13-27