Δ ± ± TOP VIEW Δ ± ± μ 9-4728; Rev 7; 9/08 PART TEMP RANGE P-PAKAGE G4J 0 to +70 Plastic IP G4UE 0 to +70 TOP G4EUE -40 to +8 TOP G4Y 0 to +70 Narrow O G4/ 0 to +70 ice 2 2 2 2 2 2 2 2 2 3 4 2 3 4 2 3 4 2 4 G4 3 2 4 G42 3 2 4 G43 3 2 4 3 4 3 4 3 7 0 7 0 7 0 8 9 8 9 8 9 IP/O/TOP G4 LOGI WITH 0 ON IP/O/TOP G42 LOGI WITH 0 ON WITHE HOWN FOR LOGI 0 PUT IP/O/TOP G43 LOGI WITHE, 4 WITHE 2, 3 0 ON ON 本データシートは日本語翻訳であり 相違及び誤りのある可能性があります 設計の際は英語版データシートを参照してください 価格 納期 発注情報については Maxim irect (020-0) にお問い合わせいただくか Maxim のウェブサイト (japan.maximintegrated.com) をご覧ください
ABOLUTE MAXIMUM RATG (All Voltages Referenced to.)...44v...2v...( -0.3V) to ( +0.3V) igital Inputs, V, V (Note )...( -2V) to ( +2V) or 30mA (whichever occurs first) ontinuous urrent (any terminal)...30ma Peak urrent (pulsed at ms, 0% duty cycle max)...00ma ontinuous Power issipation (T A = +70 ) -Pin Plastic IP (derate 0.3mW/ above +70 ).842mW -Pin Narrow O (derate 8.70mW/ above +70 )...9mW -Pin ERIP (derate 0.00mW/ above +70 )...800mW -Pin TOP (derate.7mw/ above +70 )...47mW -Pin QFN (derate 9.2mW/ above +70 )...38mW Operating Temperature Ranges G4...0 to +70 G4...-40 to +8 G4_AK_...- to +2 torage Temperature Range...- to +0 Lead Temperature (soldering, 0s)...+300 Note : ignals on,, or exceeding or are clamped by internal diodes. Limit forward current to maximum current rating. 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. ELETRIAL HARATERITI ual upplies ( = V, = -V, = V, V = 0V, V H = 2.4V, V L = 0.8V,, unless otherwise noted.) PARAMETER WITH Analog ignal Range rain-ource On-Resistance On-Resistance Match Between hannels (Note 4) On-Resistance Flatness (Note 4) YMBOL V ANALOG R (ON) ΔR (ON) R FLAT(ON) (Note 3) = 3.V, = -3.V, V = ±8.V, I = -0mA = V, = -V, V = ±0V, I = -0mA = V, = -V, V = ±V, 0V, I = -0mA ONITION T A = +2 T A = +2 T A = +2, A M TYP MAX (Note 2) - 7 4 7 30 4 3 4 UNIT V Ω Ω Ω ource Off-Leakage urrent (Note 7) I () =.V, = -.V, V = ±.V, V = ±.V T A = +2 T A = T M to T MAX,, A, A -0.2-0.0 0.2 - na -0 0 rain Off-Leakage urrent (Note 7) I () =.V, = -.V, V = ±.V, V = ±.V T A = +2 T A = T M to T MAX,, A, A -0.2-0.0 0.2 - -0 0 na rain On-Leakage urrent (Note 7) I (ON) + I (ON) =.V, = -.V, V = ±.V, V = ±.V T A = +2 T A = T M to T MAX,, A, A -0.4-0. 0.4-20 20-40 40 na 2 Maxim Integrated
ELETRIAL HARATERITI ual upplies (continued) ( = V, = -V, = V, V = 0V, V H = 2.4V, V L = 0.8V,, unless otherwise noted.) PUT Input urrent with Input Voltage High Input urrent with Input Voltage Low UPPLY Power-upply Range Positive upply urrent Negative upply urrent Logic upply urrent Ground urrent YNAMI Turn-On Time Turn-Off Time PARAMETER Break-Before-Make Time elay harge Injection (Note 3) Off-Isolation (Note ) rosstalk (Note ) YMBOL I H I L I+ I- I L I t ON t t Q OIRR ONITION = 2.4V, all others = 0.8V = 0.8V, all others = 2.4V =.V, = -.V, V = 0V or V =.V, = -.V, V = 0V or V =.V, = -.V, V = 0V or V =.V, = -.V, V = 0V or V V = ±0V, Figure 2 V = ±0V, Figure 2 G43 only, R L = 300Ω, L = 3pF, Figure 3 L =.0nF, V GEN = 0V, R GEN = 0Ω, Figure 4 R L = 0Ω, L = pf, f = MHz, Figure R L = 0Ω, L = pf, f = MHz, Figure T A = +2 T A = +2 T A = +2 T A = +2 T A = +2 T A = +2 T A = +2 T A = +2 T A = +2 T A = +2 M TYP MAX (Note 2) -0.00 0.00 0.00-0.00 0.00 0.00 ±4. ±20.0-0.000 - - -0.000 - - 0.000 - - -0.000-0 7 220 00 4 0 2 0 8 8 UNIT V ns ns ns p db db ource Off-apacitance () f = MHz, Figure 7 T A = +2 9 pf rain Off-apacitance () f = MHz, Figure 7 T A = +2 9 pf rain On-apacitance (ON) + (ON) f = MHz, Figure 8 T A = +2 3 pf Maxim Integrated 3
ELETRIAL HARATERITI ingle upply ( = 2V, = 0V, = V, V = 0V, V H = 2.4V, V L = 0.8V,, unless otherwise noted.) WITH Analog ignal Range rain-ource On-Resistance UPPLY PARAMETER Positive upply urrent Negative upply urrent Logic upply urrent YMBOL V ANALOG R (ON) I+ I- I L (Note 3) = 0.8V, V = 3.8V, I = -0mA = 3.2V, V = 0V or V = 3.2V, V = 0V or V =.2V, V = 0V or V ONITION T A = +2 T A = +2 T A = T MAX T A = +2 T A = T MAX T A = +2 T A = T MAX M TYP MAX (Note 2) 0 2 40 80 00-0.000 - - 0.000 - - 0.000 - UNIT V Ω Ground urrent I =.2V, V = 0V or V T A = +2 T A = T MAX - -0.000 - YNAMI Turn-On Time Turn-Off Time t ON t V = 8V, Figure 2 V = 8V, Figure 2 T A = +2 T A = +2 7 20 3 9 2 40 ns ns Break-Before-Make Time elay harge Injection (Note 3) t Q G43 only, R L = 300Ω, L = 3pF, Figure 3 L =.0nF, V GEN = 0V, R GEN = 0V, Figure 4 T A = +2 T A = +2 0 Note 2: 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 4: ΔR ON = ΔR ON max - ΔR ON min. On-resistance match between channels and flatness are guaranteed only with bipolar-supply operation. Flatness is defined as the difference between the maximum and minimum value of on-resistance as measured at the extremes of the specified analog signal range. Note : Off-Isolation = 20log(V / V ), V = output, V = input to off switch. ee Figure. Note : Between any two switches. ee Figure. Note 7: Leakage parameters I (), I (), and I (ON) are 00% tested at the maximum-rated hot temperature and guaranteed by correlation at +2. 2 ns p 4 Maxim Integrated
(T A = +2, unless otherwise noted.) R(ON) (Ω) R(ON) (Ω) 70 0 0 40 30 20 0 ON-REITANE vs. V AN POWER-UPPLY VOLTAGE A: = V, = -V B: = 0V, = -0V : = V, = -V : = 20V, = -20V 0-20 -0 0 0 20 80 70 0 0 40 = 2V = 0V V (V) ON-REITANE vs. V (GLE UPPLY) A B T A = +2 T A = +8 T A = +2 G4-0 G4-04 R(ON) (Ω) -LEAKAGE (na) 0 0 40 30 20 0 0 00 0 0. 0.0 = V = -V ON-REITANE vs. V AN TEMPERATURE T A = +2 T A = +8 T A = +2 T A = - -20-0 0 0 20 V (V) -LEAKAGE URRENT vs. TEMPERATURE =.V = -.V V = ±V V = ±V G4-02 G4-0 R(ON) (Ω) ON-LEAKAGE (na) 0 40 20 00 80 0 40 20 00 0 0. 0.0 ON-REITANE vs. V AN TEMPERATURE (GLE UPPLY) = 0V = V = 0V = V = 20V 0 0 20 V (V) ON-LEAKAGE URRENT vs. TEMPERATURE =.V = -.V V = ±V V = ±V G4-03 G4-0 30 0.00 0.00 20 0 0 20 V (V) 0.000 - +2 +2 TEMPERATURE ( ) 0.000 - +2 +2 TEMPERATURE ( ) 0 40 = V = -V = V HARGE JETION vs. ANALOG VOLTAGE L = nf G4-07 00 0 UPPLY URRENT vs. TEMPERATURE A: I+ at =.V B: I- at = -.V : I L at = V G4-08 Q (p) 20 0-20 I+, I-, IL () 0. 0.0 A B -40 0.00-0 -20 - -0-0 0 20 V (V) 0.000 - +2 +2 TEMPERATURE ( ) Maxim Integrated
IP/O/TOP QFN,, 9, 8, 4, 7, 2,, 0, 7, 3, 8, 3, 4,,, 2, 9, 4 4 4 2 3 2 0 3 EP ± ± ± ± ± ± V g Maxim Integrated
LOGI PUT WITH OUTPUT +3V 0V 0V 0% V OUT t ON t tr < 20ns tf < 20ns 0.9 x V OUT 0.9 x V OUT LOGI PUT WAVEFORM VERTE FOR WITHE THAT HAVE THE OPPOITE LOGI ENE. LOGI PUT WITH PUT +V +V 0V -V REPEAT TET FOR AN, FOR LOA ONITION, EE Electrical haracteristics. L LUE FIXTURE AN TRAY APAITANE. R V OUT = V ( L R L + R (ON) ) R L 300Ω G4 G42 G43 WITH OUTPUT V OUT L 3pF LOGI PUT WITH OUTPUT (VO) WITH OUTPUT 2 (VO2) +3V 0V 0V 0V 0% t 0.9 x VOUT t 0.9 x VOUT2 V = +0V V 2 = +0V LOGI PUT 2 +V +V -V 2 R L2 L LUE FIXTURE AN TRAY APAITANE. V OUT2 L2 R L = 300Ω L = 3pF R L G43 V OUT L V OUT ON ΔV OUT V GEN R GEN +V +V L G4 G42 G43 V OUT ON Q = (ΔV OUT )( L ) EPEN ON WITH ONFIGURATION; PUT POLARITY ETERME BY ENE OF WITH. -V V = +3V Maxim Integrated 7
IGNAL GENERATOR ANALYZER R L +V +V -V G4 G42 G43 0V or 2.4V IGNAL GENERATOR 0dBm ANALYZER 0V or 2.4V R L +V +V -V 2 G4 G42 G43 0Ω 0V or 2.4V +V +V G4 G42 G43 +V +V G4 G42 G43 APAITANE METER f = MHz 0V or 2.4V APAITANE METER f = MHz 0V or 2.4V -V -V 8 Maxim Integrated
PART TEMP RANGE P-PAKAGE G4EGE -40 to +8 QFN-EP* G4J -40 to +8 Plastic IP G4Y -40 to +8 Narrow O G4K -40 to +8 ERIP G4AK - to +2 ERIP** G4MY/PR - to +2 O*** G4MY/PR-T - to +2 O*** G42J 0 to +70 Plastic IP G42UE 0 to +70 TOP G42EUE -40 to +8 TOP G42Y 0 to +70 Narrow O G42/ 0 to +70 ice G42J -40 to +8 Plastic IP G42EGE -40 to +8 QFN-EP* G42Y -40 to +8 Narrow O G42K -40 to +8 ERIP G42AK - to +2 ERIP** G42MY/PR - to +2 O*** G42MY/PR-T - to +2 O*** G43J 0 to +70 Plastic IP G43UE 0 to +70 TOP G43EUE -40 to +8 TOP G43Y 0 to +70 Narrow O G43/ 0 to +70 ice G43EGE -40 to +8 QFN-EP* G43J -40 to +8 Plastic IP G43Y -40 to +8 Narrow O G43K -40 to +8 ERIP G43AK - to +2 ERIP** * ** *** 4 2 0.080" (2.03mm) 2 2 3 0.097" (2.4mm) Maxim Integrated 9
TOP VIEW 2 3 4 4 *EP = ONNET EP TO. 2 2 4 3 G4 7 8 QFN 2 2 2 0 3 9 3 4 4 2 2 4 3 G42 2 2 2 0 3 9 3 4 4 7 8 QFN 2 2 4 3 2 2 G43 0 9 3 7 8 QFN 0 Maxim Integrated
japan.maxim-ic.com/packages QFN-EP G-3 2-009 Plastic IP P- 2-0043 TOP U-2 2-00 ERIP J-3 2-004 Narrow O - 2-004 O - 2-004 Maxim Integrated
9/07,, 9, 4, 7 9/08, 9 マキシム ジャパン株式会社 4-0032 東京都品川区大崎 --4 大崎ニューシティ 4 号館 20F TEL: 03-893-00 Maximは完全にMaxim 製品に組込まれた回路以外の回路の使用について一切責任を負いかねます 回路特許ライセンスは明言されていません Maximは随時予告なく回路及び仕様を変更する権利を留保します Electrical haracteristics ( 電気的特性 ) の表に示すパラメータ値 (min maxの各制限値 ) は このデータシートの他の場所で引用している値より優先されます 2 Maxim Integrated Products, Inc. 0 Rio Robles, an Jose, A 934 UA -408-0-000 2008 Maxim Integrated Products MaximはMaxim Integrated Products, Inc. の登録商標です