9-0; Rev 2; 2/96 µ PART G7CJ G7CY G7C/ G7J G7Y TEMP. RANGE -0 C to + C -0 C to + C P-PACKAGE Plastic IP O ice* Plastic IP O Ordering Information continued at end of data sheet. * Contact factory for dice specificatio. G7/G/G9 TOP VIEW 2 N.C. 2 7 N.C. 2 7 2 7 GN 3 6 GN 3 6 GN 3 6 G7 G G9 IP/O IP/O IP/O G7 G G9 LOGIC WITCH LOGIC WITCH LOGIC WITCH 0 ON 0 ON 0 ON WITCH 2 ON N.C. = NO TERNAL CONNECTION WITCHE HOWN FOR LOGIC "0" PUT Maxim Integrated Products
G7/G/G9 ABOLUTE MAXIMUM RATG Voltage Referenced to...v GN...2V...(GN - 0.3V) to ( + 0.3V) igital Inputs V, V (Note )...( - 2V) to ( + 2V) or 30mA (whichever occurs first) Continuous Current (any terminal) (Note )...30mA Peak Current, or (pulsed at ms, 0% duty cycle max)..00ma Continuous Power issipation (T A = +70 C) Plastic IP (derate 9.09mW/ C above +70 C)...727mW O (derate.mw/ C above +70 C)...7mW CERIP (derate.00mw/ C above +70 C)...60mW Operating Temperature Ranges G_C_... G...-0 C to + C G_AK...- C to +2 C torage Temperature Range...-6 C to +0 C Lead Temperature (soldering, 0sec)...+300 C Note : ignals on,, or exceeding or are clamped by internal diodes. Limit forward current to maximum current ratings. 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 conditio beyond those indicated in the operational sectio of the specificatio is not implied. Exposure to absolute maximum rating conditio for extended periods may affect device reliability. ELECTRICAL CHARACTERITICÑual upplies ( = +V, = -V, = V, GN = 0V, V L = 0.V, V H = 2.V, T A = T M to T MAX, unless otherwise noted.) PARAMETER WITCH Analog ignal Range rain-ource On-Resistance On-Resistance Match Between Channels (Note ) YMBOL V _, V R (ON) R (ON) (Note 3) = 3.V, = -3.V, V = ±0V, I = -0mA CONITION M TYP MAX (Note 2) - C, 20 3 A 20 30 TA = T M to T MAX = V, = -V, 3 V = ±0V, I = -0mA TA = T M to T MAX UNIT V Ω Ω On-Resistance Flatness (Note ) R FLAT(ON) = V, = -V, V = ±V, I = -0mA TA = +2 C TA = T M to T MAX 6 Ω ource-off Leakage Current (Note ) rain-off Leakage Current (Note ) rain-on Leakage Current (Note ) I () I () I (ON) ± ± = 6.V, = -6.V, -0.2 0.2 V = ±.V, TA = T M to C, - V =.V T MAX A -20 20-0.2 0. 0.2 G7/ = 6.V, G TA = T M to C, - = -6.V, T MAX A -20 20 V = ±.V, -0.7-0. 0.7 V =.V G9 TA = T M to C, -0 0 T MAX A -0 0-0. 0. G7/ C, -0 0 = 6.V, G TA = T M to = -6.V, T MAX A -0 0 V = ±.V, -0.7 0.7 V = ±.V G9 TA = T M to C, -0 0 T MAX A -0 0 na na na 2
ELECTRICAL CHARACTERITICÑual upplies (continued) ( = +V, = -V, = V, GN = 0V, V L = 0.V, V H = 2.V, T A = T M to T MAX, unless otherwise noted.) PARAMETER LOGIC PUT Logic Input Current with Input Voltage High Logic Input Current with Input Voltage Low I H I L C () C () V = 2.V V = 0V, f = MHz, Figure, -0. 0.00 0. V = 0.V -0. 0.00 0. YNAMIC Turn-On Time t ON G7/G, V = ±0V, Figure 2 TA = T M to T MAX Turn-Off Time t G7/G, V = ±0V, Figure 2 TA = T M to T MAX Traition Time t TRAN G9, V = ±0V, Figure 3 T A = T M to T MAX Break-Before-Make Interval t G9, V = V 2 = ±0V, Figure, Charge Injection (Note 3) Q VGEN = 0V, Figure, Off-Isolation Rejection Ratio (Note 6) Crosstalk (Note 7) rain Off-Capacitance ource Off-Capacitance YMBOL OIRR CONITION R L = 00Ω, C L = pf, f = MHz, Figure 6, G9, R L = 0Ω, C L = pf, f = MHz, Figure 7, V = 0V, f = MHz, Figure, M TYP MAX (Note 2) 3 00 7 20 60 20 7 20 3 0 6 UNIT pc db db pf pf G7/G/G9 rain-ource On-Capacitance C (ON) or C (ON) V = 0V, f = MHz, Figure 9, G7/G G9 30 3 pf UPPLY Positive upply Current I+ = 6.V, = -6.V, V = 0V or V T A = T M to T MAX - -0.000 - Negative upply Current I- = 6.V, = -6.V, V = 0V or V TA = T M to T MAX - -0.000 - Logic upply Current I L = 6.V, = -6.V, V = 0V or V TA = T M to T MAX - -0.000 - Ground Current I GN = 6.V, = -6.V, V = 0V or V TA = T M to T MAX - -0.000-3
G7/G/G9 ELECTRICAL CHARACTERITICÑingle upply ( = +2V, = 0V, = V, GN = 0V, V H = 2.V, V L = 0.V,, unless otherwise noted.) PARAMETER WITCH Analog ignal Range rain-ource On-Resistance R (ON) I = -0mA, V = 3.V, = 0.V 0 00 Ω YNAMIC Turn-On Time t ON G7/G, V = V, Figure 2 0 Turn-Off Time t G7/G, V = V, Figure 2 0 Charge Injection (Note 3) UPPLY YMBOL V ANALOG Break-Before-Make Interval t G9, R L = 000Ω, C L = 3pF, Figure Positive upply Current I+ Negative upply Current I- Q (Note 3) CONITION C L = 0nF, V GEN = 0V, R GEN = 0V, Figure All channels on or off, = 3.2V, V L =.2V, V = 0V or V All channels on or off, = 3.2V, V L =.2V, V = 0V or V M TYP MAX (Note 2) 0 2 60 2 0-0.000-0.000 UNIT V pc Logic upply Current I L All channels on or off, V L =.2V, V = 0V or V Ground Current I GN All channels on or off, V L =.2V, V = 0V or V -0.000-0.000 Note 2: Typical values are for design aid only, are not guaranteed, and are not subject to production testing. The algebraic convention where the most negative value is a minimum and the most positive value a maximum is used in this data sheet. Note 3: Guaranteed by design. Note : On-resistance match between channels and flatness is guaranteed only with bipolar-supply operation. Flatness is defined as the difference between the maximum and the minimum value of on-resistance as measured at the extremes of the specified analog range. Note : Leakage parameters I (), I (), and I (ON) are 00% tested at the maximum rated hot temperature and guaranteed by correlation at +2 C. Note 6: Off-Isolation Rejection Ratio = 20log (V /V ), V = output, V = input to off switch. Note 7: Between any two switches.
(, unless otherwise noted.) R(ON) (W) 0 0 3 30 2 20 0 ON-REITANCE vs. V AN POWER-UPPLY VOLTAGE A: = V, = -V B: = 0V, = -0V C: = V, = -V : = 20V, = -20V -20-0 0 0 20 V (V) A B C G7-0 R(ON) (W) 3 30 2 20 0 = V = -V ON-REITANCE vs. V AN TEMPERATURE T A = + C T A = +2 C T A = - C -20-0 0 0 20 V (V) G7-02 R(ON) (W) 0 20 00 0 60 0 20 = 0V ON-REITANCE vs. V (GLE UPPLY) = V = 0V = V = 20V 0 0 20 V (V) G7-03 G7/G/G9 R(ON) (W) 70 60 0 0 30 = 2V = 0V ON-REITANCE vs. V AN TEMPERATURE T A = +2 C T A = + C G7-0 -LEAKAGE (na) 00 0 0. 0.0 -LEAKAGE CURRENT vs. TEMPERATURE = 6.V = -6.V V = ±V V = V ± G7-0 ON-LEAKAGE (na) 00 0 0. 0.0 ON-LEAKAGE CURRENT vs. TEMPERATURE = 6.V = -6.V V = ±V V = ±V G7-06 20 0.00 0.00 0 0 0 20 V (V) 0.000-7 2 2 TEMPERATURE ( C) 0.000-7 2 2 TEMPERATURE ( C) 60 0 = V = -V CHARGE JECTION vs. ANALOG VOLTAGE G7-07 00 0 UPPLY CURRENT vs. TEMPERATURE A: I+ at = 6.V B: I- at = -6.V C: I L at V L = V G7-0 Q (pc) 20 0-20 I+, I-, IL (ma) 0. 0.0 A B C -0 0.00-60 -20 - -0-0 0 20 V (V) 0.000-7 2 2 TEMPERATURE ( C)
G7/G/G9 G7 G G9 2 2 2 N.C. 3 3 3 GN 6 6 6 7 7 7 2 V g G_ 6
LOGIC PUT WITCH OUTPUT +3V 0V 0V 0% t ON t t R < 20 t F < 20 0.9 x 0.9 x LOGIC PUT WAVEFORM VERTE FOR WITCHE THAT HAVE THE OPPOITE LOGIC ENE. LOGIC PUT WITCH PUT +V +V GN -V C L CLUE FIXTURE AN TRAY CAPACITANCE. R = V ( L ) R L + R (ON ) G7 G R L 300W WITCH OUTPUT C L 3pF G7/G/G9 LOGIC PUT +3V 0V 0% t TRAN t R < 20 t F < 20 t TRAN +V +V 2 G9 R L 000W C L 3pF WITCH OUTPUT 2 0. x 2 0. x LOGIC PUT GN -V C L CLUE FIXTURE AN TRAY CAPACITANCE. 7
G7/G/G9 LOGIC PUT WITCH OUTPUT WITCH OUTPUT 2 +3V 0V 0V 2 0% t 0.9 x t 0.9 x +0V LOGIC PUT, 2 2 +V +V GN -V R L 300W C L CLUE FIXTURE AN TRAY CAPACITANCE. G9 C L 3pF ON V GEN +V GN +V G7 G G9 C L 0nF ON Q = x C L EPEN ON WITCH CONFIGURATION; PUT POLARITY ETERME BY ENE OF WITCH. -V V = +3V
IGNAL GENERATOR 0dBm NETWORK ANALYZER R L +V 0nF or 2 GN +V G7 G G9 -V 0nF 0V or 2.V IGNAL GENERATOR 0dBm NETWORK ANALYZER 0V or 2.V R L 0nF 2 +V GN +V -V G9 0nF 0W G7/G/G9 0nF +V +V G7 G G9 0nF +V +V G7 G G9 CAPACITANCE METER f = MHz GN 0nF 0V or 2.V CAPACITANCE METER f = MHz GN 0nF 0V or 2.V -V -V 9
G7/G/G9 PART TEMP. RANGE P-PACKAGE G7K -0 C to + C CERIP G7AK - C to +2 C CERIP** GCJ Plastic IP GCY GC/ O ice* GJ -0 C to + C Plastic IP GY -0 C to + C O GK -0 C to + C CERIP GAK - C to +2 C CERIP** G9CJ Plastic IP G9CY G9C/ O ice* G9J -0 C to + C Plastic IP G9Y -0 C to + C O G9K -0 C to + C CERIP G9AK - C to +2 C CERIP** * Contact factory for dice specificatio. **Contact factory for availability and processing to MIL-T-3B. 3 2 6 0.0".7mm 7 9 0.076".93mm TRANITOR COUNT: 32 UBTRATE CONNECTE TO IE PA G7 G G9 N.C. 2 GN GN GN 3 6 7 N.C. N.C. 9 N.C. 0
G7/G/G9 OICN.EP PIPN.EP
G7/G/G9 CIP.EP 2 Maxim Integrated Products, 20 an Gabriel rive, unnyvale, CA 906 (0) 737-7600 996 Maxim Integrated Products is a registered trademark of Maxim Integrated Products.