Precision Monolithic Quad PT MO Analog es ERIPTION The G4 series of monolithic quad analog switches was designed to provide high speed, low error switching of precision analog signals. ombining low power (.3 µw) with high speed (t ON : ns), the G4 family is ideally suited for portable and battery powered industrial and military applications. To achieve high-voltage ratings and superior switching performance, the G4 series was built on Vishay iliconix s high voltage silicon gate process. An epitaxial layer prevents latchup. Each switch conducts equally well in both directions when on, and blocks input voltages up to the supply levels when off. The G4 and G42 respond to opposite control logic as shown in the Truth Table. The G43 has two normally open and two normally closed switches. FEATURE 44 V upply Max Rating ± V Analog ignal Range On-Resistance - r (on) : 2 Ω Fast ing - t ON : ns Ultra Low Power - P :.3 µw TTL, MO ompatible ingle upply apability BENEFIT Widest ynamic Range Low ignal Errors and istortion Break-Before-Make ing Action imple Interfacing APPLIATION Precision Automatic Test Equipment Precision ata Acquisition ommunication ystems Battery Powered ystems omputer Peripherals Pb-free Available RoH* OMPLIANT FUNTIONAL BLOK IAGRAM AN PIN ONFIGURATION G4 ual-in-line and OI IN 2 3 4 4 3 2 IN 2 2 2 4 4 IN 4 9 3 3 IN 3 Top View 4 2 N N G4 L IN N IN 2 2 Key 3 2 9 4 4 3 9 2 3 4 IN 4 N IN 3 3 Top View TRUTH TABLE Logic G4 G42 ON OFF OFF ON Logic "". V Logic "" 2.4 V G43 ual-in-line and OI IN IN 2 2 2 3 4 2 4 3 4 4 IN 4 2 9 3 3 IN 3 Top View * Pb containing terminations are not RoH compliant, exemptions may apply ocument Number: -24 Rev. E, 2-Jun- Key G43 L IN N IN 2 2 3 2 9 4 2 N N 4 4 3 9 2 3 4 IN 4 N IN 3 3 Top View TRUTH TABLE Logic W, W 4 W 2, W 3 OFF ON ON OFF Logic "". V Logic "" 2.4 V
ORERING INFORMATION Temp Range Package Part Number G4/G42 G43-4 to - 4 to - 4 to -Pin Plastic IP -Pin Narrow OI -Pin Plastic IP -Pin Narrow OI G4J G4J-E3 G42J G42J-E3 G4Y G4Y-E3 G4Y-T G4Y-T-E3 G42Y G42Y-E3 G42Y-T G42Y-T-E3 G43J G43J-E3 G43Y G43Y-E3 G43Y-T G43Y-T-E3 ABOLUTE MAXIMUM RATING Parameter Limit Unit to 44 to 2 ( -.3) to () +.3 V igital Inputs a () -2 to () + 2, V, V or 3 ma, whichever occurs first ontinuous urrent (Any Terminal) 3 Peak urrent, or (Pulsed at ms, % duty cycle) ma torage Temperature (AK, AZ uffix) - to (J, Y uffix) - to 2 -Pin Plastic IP c 4 Power issipation (Package) b -Pin Narrow OI d -Pin erip e 9 mw L- e 9 Notes: a. ignals on X, X, or IN X exceeding or will be clamped by internal diodes. Limit forward diode current to maximum current ratings. b. All leads welded or soldered to P Board. c. erate mw/ above 2. d. erate. mw/ above. e. erate 2 mw/ above. 2 ocument Number: -24 Rev. E, 2-Jun-
PEIFIATION a Parameter ymbol Test onditions Unless pecified = V, = - V = V, V IN = 2.4 V,. V f Temp b Typ c A uffix - to 2 uffix - 4 to Min d Max d Min d Max d Analog Analog ignal Range e V ANALOG - - V rain-ource = 3. V, = - 3. V 2 3 3 r On-Resistance (on) I = - ma, V = ±. V 4 4 Ω Off Leakage urrent I (off) I (off) =., = -. V V = ±. V, V = ±. V hannel On Leakage urrent I (on) =. V, = -. V V = V = ±. V ±. -.2 - ±. -.2 - ±. -.4-4 igital ontrol Input urrent, V IN Low I IL V IN under test =. V. -.. -.. Input urrent, V IN High I IH V IN under test = 2.4 V. -.. -.. µa ynamic haracteristics Turn-On Time t ON RL = 3 Ω, L = 3 pf 24 2 Turn-Off Time t OFF V = ± V, ee Figure 2 4 4 ns Break-Before-Make G43 Only, V t = V Time elay R L = 3 Ω, L = 3 pf 2 harge Injection Q V g = V, R g = Ω L = nf p Off Isolation e OIRR R L = Ω, L = pf, hannel-to-hannel f = MHz rosstalk e X TALK db ource Off apacitance e (off) 9 rain Off apacitance e (off) f = MHz 9 pf hannel On apacitance e (on) 3 Power upplies Positive upply urrent I+. Negative upply urrent I- -. - - =. V, = -. V - - Logic upply urrent I L V IN = or V. µa -. - - Ground urrent I - -.2.2.4 4 -.2 - -.2 - -.4 -.2.2.4 Unit na ocument Number: -24 Rev. E, 2-Jun- 3
PEIFIATION FOR UNIPOLAR UPPLIE a Parameter ymbol Test onditions Unless pecified = 2 V, = V = V, V IN = 2.4 V,. V f Temp b Typ c Notes: a.refer to PROE OPTION FLOWHART. b. = 2, = as determined by the operating temperature suffix. c.typical values are for EIGN AI 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 data sheet. e.guaranteed by design, not subject to production test. f. V IN = input voltage to perform proper function. tresses 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. TYPIAL HARATERITI 2, unless otherwise noted A uffix - to 2 uffix - 4 to Min d Max d Min d Max d Analog Analog ignal Range e V ANALOG 2 2 V rain-ource =. V, 4 r On-Resistance (on) I = - ma, V = 3 V, V Ω ynamic haracteristics Turn-On Time t ON RL = 3 Ω, L = 3 pf Turn-Off Time t OFF V = V, ee Figure 2 Break-Before-Make G43 Only, V t = V Time elay R L = 3 Ω, L = 3 pf 2 4 9 2 4 harge Injection Q V g = V, R g = Ω, L = nf 2 p Power upplies Positive upply urrent I+ Negative upply urrent I- = 3. V, V IN = or V Logic upply urrent I L Ground urrent I. -. - -. -. - - - - - 3 2 4 Unit ns µa 3 r(on) rain-ource On-Resistance (Ω) 4 4 3 3 T A = 2 ± V ± V ± V 2 ± V ± 2 V ± V - - - - V (on) (Ω) = 3 V = 3 V = V V 2 V V = V V 2 4 2 4 V rain Voltage (V) On-Resistance vs. V and Power upply Voltage V rain Voltage (V) On-Resistance vs. V and Unipolar upply Voltage 4 ocument Number: -24 Rev. E, 2-Jun-
TYPIAL HARATERITI 2, unless otherwise noted (pa) I, I 3 - - - 3-4 - - = V = - V = V T A = 2 I (off) I (off) I (on) - - - r (on) rain-ource On-Resistance (Ω) 3 3 2 2 2 - = V = - V = V - - - V or V rain or ource Voltage (V) Leakage urrent vs. Analog Voltage V rain V oltage (V) I, I Leakages vs. Temperature = V = - V = V 4 = V = - V = V L = nf Q (p) 4 - L = nf L = nf Q (p) 4 - L = nf - 4-4 - - - - V ource Voltage (V) harge Injection vs. Analog Voltage - - - - V rain Voltage (V) harge Injection vs. Analog Voltage V TH (V) 3. 3. 2. 2.. =. V. V ton, toff (ns) 24 2 9 = V = - V = V V = V t ON t OFF. 4. V. V. 3 () 2 3 3 4 Input ing Threshold vs. upply Voltage - - 3-2 4 2 Temperature ( ) ing Time vs. Temperature ocument Number: -24 Rev. E, 2-Jun-
TYPIAL HARATERITI 2, unless otherwise noted ma ma = V = - V = V ma = W = 4 W I+, I- I UPPL Y µa µa I L µa na na k k k M M HEMATI IAGRAM (TYPIAL HANNEL) f Frequency (Hz) upply urrent vs. Input ing Frequency V IN Level hift/ rive Figure. TET IRUIT ± V + V IN + V - V R L 3 Ω L 3 pf Logic Input Input* Output Input* 3 V V V V % t ON 9 % t r < ns t f < ns t ON 9 % -V L (includes fixture and stray capacitance) *V = V for t ON, V = - V for t OFF = V R L R L + r (on) Figure 2. ing Time Note: Logic input waveform is inverted for switches that have the opposite logic sense control ocument Number: -24 Rev. E, 2-Jun-
TET IRUIT + V + V V V 2 IN 2 IN 2 2 R L2 3 Ω 2 L2 3 pf R L 3 Ω L 3 pf Logic Input Output Output 3 V V V V V 2 2 V % 9 % t 9 % t - V L (includes fixture and stray capacitance) Figure 3. Break-Before-Make (G43) Δ + V + V R g IN X OFF ON OFF V g 3 V IN L nf IN X OFF ON Q = Δ x L OFF - V Figure 4. harge Injection IN X dependent on switch configuration Input polarity determined by sense of switch. + V + V V R g = Ω V, 2.4 V IN Ω N 2 2 V, 2.4 V IN 2 R L X TA LK Isolation = log = RF bypass V - V Figure. rosstalk ocument Number: -24 Rev. E, 2-Jun-
+ V + V + V + V V R g = Ω V, 2.4 V IN R L Ω V, 2.4 V IN Meter HP492A Impedance Analyzer or Equivalent - V Off Isolation = log = RF Bypass Figure. Off Isolation V - V Figure. ource/rain apacitances APPLIATION ingle upply Operation: umming Amplifier The G4/42/43 can be operated with unipolar supplies from V to 44 V. These devices are characterized and tested for unipolar supply operation at 2 V to facilitate the majority of applications. In single supply operation, is tied to and is tied to V. ee Input ing Threshold vs. upply Voltage curve for versus input threshold requirments. When driving a high impedance, high capacitance load such as shown in Figure, where the inputs to the summing amplifier have some noise filtering, it is necessary to have shunt switches for rapid discharge of the filter capacitor, thus preventing offsets from occurring at the output. R R 2 V IN R V IN 2 R 3 R 4 2 + UT R G43 Figure. umming Amplifier maintains worldwide manufacturing capability. Products may be manufactured at one of several qualified locations. Reliability data for ilicon 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 http:///ppg?. ocument Number: -24 Rev. E, 2-Jun-
Notice Legal isclaimer Notice Vishay pecifications of the products displayed herein are subject to change without notice. Vishay Intertechnology, Inc., or anyone on its behalf, assumes no responsibility or liability for any errors or inaccuracies. Information contained herein is intended to provide a product description only. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Vishay's terms and conditions of sale for such products, Vishay assumes no liability whatsoever, and disclaims any express or implied warranty, relating to sale and/or use of Vishay products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right. The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications. ustomers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Vishay for any damages resulting from such improper use or sale. ocument Number: 9 Revision: -Apr-