Precision 8-Ch/Dual 4-Ch Low Voltage Analog Multiplexers
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1 Precision 8-Ch/ual 4-Ch Low Voltage Analog Multiplexers ESCRIPTION The G948, G949 uses BiCMOS wafer fabrication technology that allows the G948, G949 to operate on single and dual supplies. Single supply voltage ranges from 3 V to 1 V while dual supply operation is recommended with ± 3 V to ± 6 V. The G948 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 (,, A ). The G949 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 -bit binary address (, ). Break-before-make switching action to protect against momentary crosstalk between adjacent channels. As a committed partner to the community and the environment, manufactures this product with lead (Pb)-free device terminations. The G948, G949 are offered in a QFN package that has a nickel-palladiumgold device terminations and is represented by the lead (Pb)-free -E4 suffix. The nickel-palladium-gold device terminations meet all the JEEC standards for reflow and MSL ratings. FEATURES.7 V to 1 V single supply or ± 3 V to ± 6 V dual supply operation Low on-resistance - R ON : 3.9 typ. Fast switching: t ON - 4 ns, t OFF - 4 ns Break-before-make guaranteed Low leakage TTL, CMOS, LV logic (3 V) compatible V ES protection (HBM) Material categorization: For definitions of compliance please see /doc?9991 BEFITS High accuracy Single and dual power rail capacity Wide operating voltage range Simple logic interface APPLICATIONS ata acquisition systems Battery operated equipment Portable test equipment Sample and hold circuits Communication systems SSL, SLAM Audio and video signal routing FUNCTIONAL BLOCK IAGRAM AN PIN CONFIGURATION G948 QFN16 S 1 A G949 QFN16 S 1b b a S 1 1 S 5 S b 1 1 S 1a GN 11 S 6 GN 11 S a S 3 3 S 3b 3 S 4 4 ecoder/river 9 S 7 S 4b 4 ecoder/river 9 S 3a S 8 Top View S 4a Top View S Rev., 7-May-13 1 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
2 TRUTH TABLES AN ORERING INFORMATION TRUTH TABLE G948 A On Switch X X X 1 None TRUTH TABLE G949 On Switch X X 1 None X = on t care For low and high voltage levels for V AX and V consult igital Control Parameters for Specific operation. See Specifications Tables for: Single Supply 1 V ual Supply = 5 V, = - 5 V Single Supply 5 V Single Supply 3 V ORERING INFORMATION Temp. Range Package Part Number - 4 C to 85 C 16-pin QFN (4 mm x 4 mm) G948N-T1-E4 (Variation 1) G949N-T1-E4 ABSOLUTE MAXIMUM RATINGS (T A = 5 C, unless otherwise noted) Parameter Limit Unit Voltage Referenced to 14 GN 7 V igital Inputs a, V S, V () -.3 to () +.3 Current (Any Terminal Except S or ) 3 Continuous Current, S or ma Peak Current, S or (Pulsed at 1 ms, % uty Cycle max.) Package Solder Reflow Conditions d 16-pin (4 x 4 mm) QFN 4 Storage Temperature - 65 to C Power issipation (Package) b, (T A = 7 C) 16-pin (4 x 4 mm) QFN c 188 mw Notes: a. Signals on SX, X or INX exceeding or will be clamped by internal diodes. Limit forward diode current to maximum current ratings. b. All leads soldered or welded to PC board. c. erate 3.5 mw/ C above 7 C. d. Manual soldering with soldering iron is not recommended for leadless components. The QFN is a leadless package. The end of the lead terminal is exposed copper (not plated) as a result of the singulation process in manufacturing. A solder fillet at the exposed copper lip cannot be guaranteed and is not required to ensure adequate bottom side solder interconnection. S Rev., 7-May-13 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
3 SPECIFICATIONS (Single Supply 1 V) Parameter Symbol Test Conditions Unless Otherwise Specified = 1 V, ± %, = V V A, V =.8 V or.4 V f Temp. b Limits - 4 C to 85 C Min. c Typ. d Max. c Analog Switch Analog Signal Range e V ANALOG 1 V On-Resistance R ON =.8 V, V = V or 9 V, I S = 5 ma sequence each switch on On-Resistance Flatness i R ON Flatness =.8 V, V = V or 9 V, I S = 5 ma R ON Match Between Channels g R ON Switch Off Leakage Current I S(off) I (off) V =.4 V, V = 11 V or 1 V, V S = 1 V or 11 V Channel On Leakage Current I (on) V = V, V S = V = 1 V or 11 V igital Control Logic High Input Voltage V INH.4 V Logic Low Input Voltage V INL.8 Input Current I IN V AX = V =.4 V or.8 V µa ynamic Characteristics Transition Time t TRANS V S1b = 8 V, V S4b = V, (G949) V S1 = 8 V, V S8 = V, (G948) see fig V Break-Before-Make Time t S(all) = V A = 5 V 4 BBM see fig. 4 ns 4 7 Enable Turn-On Time t ON() V AX = V, V S1 = 5 V (G948) 75 V AX = V, V S1b = 5 V (G949) 4 44 Enable Turn-Off Time t OFF() see fig Charge Injection e Q C L = 1 nf, V G = V, R G = 9 pc Off Isolation e, h OIRR - 8 f = khz, R L = 1 k Crosstalk e X TALK - 85 db Source Off Capacitance e C S(off) f = 1 MHz, V S = V, V =.4 V G948 1 G949 3 rain Off Capacitance e C (off) f = 1 MHz, V = V, V =.4 V G G pf rain On Capacitance e C (on) f = 1 MHz, V = V, V = V G G Power Supplies Power Supply Current I+ V = V A = V or 1 µa Unit na S Rev., 7-May-13 3 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
4 SPECIFICATIONS (ual Supply = 5 V, = - 5 V) Parameter Symbol Test Conditions Unless Otherwise Specified = 5 V, = - 5 V, ± % V A, V =.8 V or V f Temp. b Limits - 4 C to 85 C Min. c Typ. d Max. c Analog Switch Analog Signal Range e V ANALOG V On-Resistance R ON = 4.5 V, = V, V = ± 3.5 V, I S = 5 ma sequence each switch on On-Resistance Flatness i R ON Flatness = 4.5 V, = V, V = ± 3.5 V, I S = 5 ma R ON Match Between Channels g R ON - I S(off) Switch Off Leakage Current a = 5.5, = V - V =.4 V, V = ± 4.5 V, V S = ± 4.5 V - I (off) - Channel On Leakage Current a = 5.5 V, = V - I (on) V = V, V = ± 4.5 V, V S = ± 4.5 V - igital Control Logic High Input Voltage V INH Logic Low Input Voltage V INL.8 V Input Current a I IN V AX = V = V or.8 V µa ynamic Characteristics Transition Time e t TRANS V S1b = 3.5 V, V S4b = V, (G949) V S1 = 3.5 V, V S8 = V, (G948) see fig. Break-Before-Make Time e t BBM V S(all) = V A = 3.5 V see fig. 4 Enable Turn-On Time e t ON() V AX = V, V S1 = 3.5 V (G948) V AX = V, V S1b = 3.5 V (G949) Enable Turn-Off Time e t OFF() see fig. 3 Source Off Capacitance e C S(off) f = 1 MHz, V S = V, V = V rain Off Capacitance e C (off) f = 1 MHz, V = V, V = V rain On Capacitance e C (on) f = 1 MHz, V = V, V = V Power Supplies Power Supply Current 1 16 G948 3 G949 3 G948 3 G G G I+ 1 V = V A = V or I- - 1 Unit na ns pf µa 4 S Rev., 7-May-13 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
5 SPECIFICATIONS (Single Supply 5 V) Parameter Symbol Test Conditions Unless Otherwise Specified = 5 V, ± %, = V V A, V =.8 V or V f Temp. b Limits - 4 C to 85 C Min. c Typ. d Max. c Analog Switch Analog Signal Range e V ANALOG 5 V On-Resistance R ON = 4.5 V, V or V S = 1 V or 3.5 V, I S = 5 ma R ON Match Between Channels g R ON = 4.5 V, V = 1 V or 3.5 V, I S = 5 ma On-Resistance Flatness i R ON Flatness I S(off) Switch Off Leakage Current a = 5.5 V V S = 1 V or 4 V, V = 4 V or 1 V I (off) Channel On Leakage = 5.5 V Current a I (on) V = V S = 1 V or 4 V, sequence each switch on igital Control Logic High Input Voltage V INH = 5 V V Logic Low Input Voltage V INL.8 Input Current a I IN V AX = V = V or.8 V µa ynamic Characteristics Transition Time e t TRANS V S1b = 3.5 V, V S4b = V, (G949) V S1 = 3.5 V, V S8 = V, (G948) see fig. Break-Before-Make Time e t OP V S(all) = V A = 3.5 V see fig. 4 Enable Turn-On Time e t ON() V AX = V, V S1 = 3.5 V (G948) V AX = V, V S1b = 3.5 V (G949) Enable Turn-Off Time e t OFF() see fig Charge Injection e Q C L = 1 nf, R G =, V G = V pc Off Isolation e, h OIRR - 81 R L = 1 k, f = khz Crosstalk e X TALK - 85 db Source Off Capacitance e C S(off) f = 1 MHz, V S = V, V = V G948 G949 4 rain Off Capacitance e C (off) f = 1 MHz, V = V, V = V G948 3 G pf rain On Capacitance e C (on) f = 1 MHz, V = V, V = V G G Power Supplies Power Supply Current I+ V = V A = V or 1 µa Unit na ns S Rev., 7-May-13 5 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
6 SPECIFICATIONS (Single Supply 3 V) Parameter Symbol Test Conditions Unless Otherwise Specified = 3 V, ± %, = V V =.4 V or 1.8 V f Temp. b Limits - 4 C to 85 C Min. c Typ. d Max. c Analog Switch Analog Signal Range e V ANALOG 3 V On-Resistance R ON =.7 V, V =.5 V or. V, I S = 5 ma R ON Match Between Channels g On- Resistance Flatness i R ON R ON Flatness =.7 V, V =.5 V or. V, I S = 5 ma Notes: a. Leakage parameters are guaranteed by worst case test condition and not subject to production test. b. = 5 C, full = as determined by the operating temperature suffix. c. The algebraic convention whereby the most negative value is a minimum and the most positive a maximum, is used in this data sheet. d. Typical values are for ESIGN AI ONLY, not guaranteed nor subject to production testing. e. Guaranteed by design, not subject to production test. f. V IN = input voltage to perform proper function. g. R ON = R ON Max - R ON Min. h. Worst case isolation occurs on Channel 4 due to proximity to the drain pin. i. R ON flatness is measured as the difference between the minimum and maximum measured values across a defined Analog signal. 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 I - S(off) Switch Off Leakage Current a = 3.3 V - V S = V or 1 V, V = 1 or V I - (off) - Channel On Leakage Current a = 3.3 V I - (on) V = V S = 1 V or V, sequence each switch on - igital Control Logic High Input Voltage V INH 1.8 Logic Low Input Voltage V INL.4 V Input Current a I IN V AX = V = 1.8 V or.4 V µa ynamic Characteristics Transition Time t TRANS V S1b = 1.5 V, V S4b = V, (G949) V S1 = 1.5 V, V S8 = V, (G948) see fig V Break-Before-Make Time t S(all) = V A = 1.5 V 63 BBM see fig. 4 ns Enable Turn-On Time t ON() V AX = V, V S1 = 1.5 V (G948) 178 V AX = V, V S1b = 1.5 V (G949) Enable Turn-Off Time t OFF() see fig Charge Injection e Q C L = 1 nf, R G =, V G = V 7 pc Off Isolation e, h OIRR - 81 f = khz, R L = 1 k Crosstalk e X TALK - 85 db Source Off Capacitance e C S(off) f = 1 MHz, V S = V, V = 1.8 V G948 3 G949 5 rain Off Capacitance e C (off) f = 1 MHz, V = V, V = 1.8 V G948 3 G949 pf rain On Capacitance e C (on) f = 1 MHz, V = V, V = V G G Power Supplies Power Supply Current I+ V = V A = V or 1 µa Unit na 6 S Rev., 7-May-13 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
7 TYPICAL CHARACTERISTICS (5 C, unless otherwise noted) R ON - On-Resistance (Ω) = 3. V I S = 5 ma = 5. V I S = 5 ma = 1. V I S = 5 ma T = 5 C R ON - On-Resistance (Ω) = 3. V I S = 5 ma A B C = 5. V I S = 5 ma A B C A = 85 C B = 5 C C = - 4 C = 1. V I S = 5 ma A B C V COM - Analog Voltage (V) R ON vs. V COM and Single Supply Voltage V COM - Analog Voltage (V) R ON vs. Analog Voltage and Temperature R ON - On-Resistance (Ω) V± = ± 5 V I S = 5 ma A B A = 85 C B = 5 C C = - 4 C C I+ - Supply Current (pa) V AX, V = V = 1 V = V = 5 V = - 5 V V COM - Analog Voltage (V) R ON vs. Analog Voltage and Temperature Temperature ( C) Supply Current vs. Temperature I NO(off) /I NC(off) I NO(off) /I NC(off) Leakage Current (pa) I COM(off) I COM(on) Leakage Current (pa) I COM(off) I COM(on) - 4 = 1 V = V - = 5 V = - 5 V V COM, V NO, V NC - Analog Voltage Leakage Current vs. Analog Voltage V COM, V NO, V NC - Analog Voltage Leakage Current vs. Analog Voltage S Rev., 7-May-13 7 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
8 TYPICAL CHARACTERISTICS (5 C, unless otherwise noted) t ON = 3 V t OFF = 3 V 6 t ON = 5 V t ON = 1 V 4 t OFF = 5 V t OFF = 1 V Temperature ( C) Switching Time vs. Temperature and Single Supply Voltage Transistion Time (ns) t TRANS- = 3 V Temperature ( C) t TRANS+ = 3 V t TRANS- = 5 V t TRANS+ = 5 V t TRANS- = 1 V t TRANS+ = 1 V Transition Time vs. Temperature and Single Supply Voltage 3. Leakage Current (pa) = 5 V = - 5 V I NO(off), I NC(off) I COM(on) - Switching Threshold (V) V T I COM(off) Temperature ( C) Leakage Current vs. Temperature Supply Voltage (V) Switching Threshold vs. Supply Voltage (db) Loss, OIRR, XTALK K Insertion Loss 1M OIRR Crosstalk M Frequency (Hz) = 1 V = V R L M Insertion Loss, Off Isolation and Crosstalk vs. Frequency (G948) 1G (db) Loss, OIRR, XTALK K Insertion Loss 1M OIRR Crosstalk M Frequency (Hz) = 1 V = V R L M Insertion Loss, Off Isolation and Crosstalk vs. Frequency (G949) 1G 8 S Rev., 7-May-13 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
9 TYPICAL CHARACTERISTICS (5 C, unless otherwise noted) m m = 5 V = - 5 V I+ - Supply Current (A) 1 m µ µ 1 µ n n 1 n 1K K K 1M M Input Switching Frequency (Hz) Supply Current vs. Input Switching Frequency SCHEMATIC IAGRAM (Typical Channel) A X Level Shift ecode/ rive S 1 GN S n Figure 1. S Rev., 7-May-13 9 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
10 TEST CIRCUITS A S 1 S - S 7 G948 S 8 V S1 V S8 Logic Input V AX 3 V V 5 % t r < 5 ns t f < 5 ns GN 3 Ω 35 pf Switch Output V S1 5 % 9 % V S8 9 % S 1b S 1a - S 4a, a G949 GN S 4b b 3 Ω V S1b V S4b 35 pf t TRANS S 1 ON Return to Specifications: Single Supply 1 V ual Supply = 5 V, = - 5 V Single Supply 5 V Single Supply 3 V S 8 ON (G948) or S 4 ON (G949) t TRANS Figure. Transition Time S 1 V S1 S - S A 8 G948 A GN 3 Ω 35 pf Logic Input Switch Output 3 V V t OFF() V 5 % t r < 5 ns t f < 5 ns t ON() 9 % S 1b V S1 9 % S 1a - S 4a, a S b - S 4b G949 b GN 3 Ω 35 pf Return to Specifications: Single Supply 1 V ual Supply = 5 V, = - 5 V Single Supply 5 V Single Supply 3 V Figure 3. Enable Switching Time S Rev., 7-May-13 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
11 TEST CIRCUITS A G948 G949 All S and a GN b, 3 Ω V S1 35 pf Logic Input Switch Output 3 V V V S V 5 % 9 % t OP t r < 5 ns t f < 5 ns Figure 4. Break-Before-Make Interval Return to Specifications: Single Supply 1 V ual Supply = 5 V, = - 5 V Single Supply 5 V Single Supply 3 V V g R g Channel Select S X A GN C L 1 nf Logic Input Switch Output 3 V V OFF ON OFF Δ is the measured voltage due to charge transfer error Q, when the channel turns off. Q = C L x Δ Δ Figure 5. Charge Injection V IN S X R g = S 8 UT A GN R L Figure 6. Off Isolation Off Isolation = log UT V IN S Rev., 7-May THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
12 TEST CIRCUITS S 1 V S IN X R IN R g = S 8 UT A GN R L Crosstalk = log UT V IN Figure 7. Crosstalk V IN S 1 R g = A GN R L UT Insertion Loss = log UT V IN Figure 8. Insertion Loss Channel Select A A1 S 1 S 8 Meter HP419A Impedance Analyzer or Equivalent GN f = 1 MHz Figure 9. Source rain Capacitance 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 /ppg? S Rev., 7-May-13 THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
13 QFN 4x4-16L Case Outline Package Information (5) (4) VARIATION 1 VARIATION IM MILLIMETERS (1) INCHES MILLIMETERS (1) INCHES MIN. NOM. MAX. MIN. NOM. MAX. MIN. NOM. MAX. MIN. NOM. MAX A A3. ref..8 ref.. ref..8 ref. b BSC.7 BSC 4. BSC.7 BSC e.65 BSC.6 BSC.65 BSC.6 BSC E 4. BSC.7 BSC 4. BSC.7 BSC E K. min..8 min.. min..8 min. L N (3) Nd (3) Ne (3) Notes (1) Use millimeters as the primary measurement. () imensioning and tolerances conform to ASME Y14.5M (3) N is the number of terminals. Nd and Ne is the number of terminals in each and E site respectively. (4) imensions b applies to plated terminal and is measured between. mm and.3 mm from terminal tip. (5) The pin 1 identifier must be existed on the top surface of the package by using identification mark or other feature of package body. (6) Package warpage max..5 mm. ECN: S Rev. B, -Apr-13 WG: 589 Revision: -Apr-13 1 ocument Number: 7191 For technical questions, contact: powerictechsupport@vishay.com THIS OCUMT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PROUCTS ESCRIBE HEREIN AN THIS OCUMT ARE SUBJECT TO SPECIFIC ISCLAIMERS, SET FORTH AT /doc?9
14 Legal isclaimer Notice Vishay isclaimer ALL PROUCT, PROUCT SPECIFICATIONS AN ATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE RELIABILITY, FUNCTION OR ESIGN 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. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability. Statements regarding the suitability of products for certain types of applications are based on Vishay s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and / or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer s technical experts. Product specifications do not expand or otherwise modify Vishay s terms and conditions of purchase, including but not limited to the warranty expressed therein. Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners. 17 VISHAY INTERTECHNOLOGY, INC. ALL RIGHTS RESERVE Revision: 8-Feb-17 1 ocument Number: 9
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