MAX220 DS Rev15. J
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- ゆき あかさか
- 4 years ago
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1 ± μ μ ±μ PART MAX0CPE MAX0CSE MAX0CWE TEMP RANGE 0 C to +0 C 0 C to +0 C 0 C to +0 C MAX0C/D 0 C to +0 C Dice* MAX0EPE MAX0ESE MAX0EWE -0 C to + C -0 C to + C -0 C to + C * -; Rev ; /0 PIN-PACKAGE Plastic DIP Narrow SO Wide SO Plastic DIP Narrow SO Wide SO MAX0EJE -0 C to + C CERDIP MAX0MJE - C to + C CERDIP μ MAX0 + / 0. 0 MAX + / MAX (MAX) + /.0 (0.) 0 MAX + / 0 0 MAX0 (MAX00) + /0.0 (0.) 0 MAX (MAX0) + /.0 (0.) MAX (MAX0) + /.0 (0.) 0 () MAXA + / MAX (MAX0) + / 0 0 MAXA + / 0 00 MAX (MAX0) + /0.0 (0.) 0 MAX (MAX0) + / 0 0 MAX (MAX0) + /.0 (0.) 0 MAX (MAX0) + /.0 (0.) 0 MAX (MAX0) + /.0 (0.) 0 MAX (MAX0) + /.0 (0.) MAX0 + /.0 0 MAX (MAX) + /.0 (0.) 0 MAX + / MAX + / MAX + /.0 0 MAX + / 0 0 MAX + / 0 0 MAX + / 0 0 MAX + /.0 0 MAX + /.0 0 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 Direct (00-) 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
2 ABSOLUTE MAXIMUM RATINGS MAX0//A/A// Supply Voltage ( )...-0.V to +V (Note )...( - 0.V) to +V (Note )...+0.V to +V Input Voltages T IN...-0.V to ( - 0.V) R IN (Except MAX0)...±0V R IN (MAX0)...±V T OUT (Except MAX0) (Note )...±V T OUT (MAX0)...±.V Output Voltages T OUT...±V R OUT...-0.V to ( + 0.V) Driver/Receiver Output Short Circuited to...continuous Continuous Power Dissipation (T A = +0 C) -Pin Plastic DIP (derate.mw/ C above +0 C).mW -Pin Plastic DIP (derate.mw/ C above +0 C)..mW 0-Pin Plastic DIP (derate.00mw/ C above +0 C)..0mW -Pin Narrow SO (derate.0mw/ C above +0 C)...mW -Pin Wide SO (derate.mw/ C above +0 C)...mW -Pin Wide SO (derate.mw/ C above +0 C)...mW 0-Pin Wide SO (derate.00mw/ C above +0 C)...00mW 0-Pin SSOP (derate.00mw/ C above +0 C)...0mW -Pin CERDIP (derate.00mw/ C above +0 C)...00mW -Pin CERDIP (derate.mw/ C above +0 C)...mW Operating Temperature Ranges MAX AC, MAX C...0 C to +0 C MAX AE, MAX E...-0 C to + C MAX AM, MAX M...- C to + C Storage Temperature Range...- C to +0 C Lead Temperature (soldering, s) (Note ) C Note : For the MAX0, and can have a maximum magnitude of V, but their absolute difference cannot exceed V. Note : Input voltage measured with T OUT in high-impedance state, SHDN or = 0V. Note : Maximum reflow temperature for the MAXA is + C. 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. ELECTRICAL CHARACTERISTICS MAX0//A/A// ( = +V ±%, C C = 0. MAX0, C = 0.0μF, C C = 0.μF, T A = T MIN to T MAX unless otherwise noted.) μ μ Maxim Integrated
3 ELECTRICAL CHARACTERISTICS MAX0//A/A// (continued) ( = +V ±%, C C = 0. MAX0, C = 0.0μF, C C = 0.μF, T A = T MIN to T MAX unless otherwise noted.) μ μ μ μ μ μ Note : MAX R OUT is guaranteed to be low when R IN is 0V or is floating. Maxim Integrated
4 ELECTRICAL CHARACTERISTICS MAX0//A/A// (continued) ( = +V ±%, C C = 0. MAX0, C = 0.0μF, C C = 0.μF, T A = T MIN to T MAX unless otherwise noted.) PARAMETER CONDITIONS MIN TYP MAX UNITS Receiver Propagation Delay RS- to TLL (Normal Operation), Figure Receiver Propagation Delay RS- to TLL (Shutdown), Figure t PHLR MAX/MAXA/MAX/ MAX/MAX 0. MAX0 0. t PLHR MAX/MAXA/MAX/ MAX/MAX 0. MAX0 0. t PHLS MAX 0. t PHLS MAX. Receiver-Output Enable Time, Figure t ER MAX 00 ns Receiver-Output Disable Time, Figure t DR MAX 0 00 ns Transmitter-Output Enable Time (SHDN Goes High), Figure t ET MAX/MAX, 0. caps (includes charge-pump start-up) μs μs 0 μs Transmitter-Output Disable Time (SHDN Goes Low), Figure Transmitter + to - Propagation Delay Difference (Normal Operation) t DT MAX/MAX, 0. caps MAX/MAXA/MAX/ 00 MAX/MAX t PHLT - t PLHT MAX ns ns Receiver + to - Propagation Delay Difference (Normal Operation) t PHLR - t PLHR MAX/MAXA/MAX/ MAX/MAX 0 MAX0 ns MAX0/MAX/MAXA/MAXA/MAX/MAX OUTPUT VOLTAGE (V) OUTPUT VOLTAGE vs. LOAD CURRENT EITHER OR LOADED = ±V NO LOAD ON TRANSMITTER (EXCEPT MAX0, MAXA) LOADED, NO LOAD ON LOADED, NO LOAD ON 0 0 LOAD CURRENT (ma) MAX0-0 OUTPUT CURRENT (ma) AVAILABLE OUTPUT CURRENT vs. DATA RATE ALL CAPS ALL CAPS 0. OUTPUT LOAD CURRENT FLOWS FROM TO = +.V = +.V DATA RATE (kb/s) MAX0-0, VOLTAGE (V) +V +V +V 0V 0V -V MAX/MAX ON-TIME EXITING SHUTDOWN SHDN 0. CAPS CAPS CAPS 0. CAPS 00μs/div MAX0-0 Maxim Integrated
5 ABSOLUTE MAXIMUM RATINGS MAX/MAX0 MAX...-0.V to +V...( - 0.V) to +V...+0.V to -V Input Voltages T IN...-0.V to ( + 0.V) R IN...±0V Output Voltages T OUT...( + 0.V) to ( - 0.V) R OUT...-0.V to ( + 0.V) Short-Circuit Duration, T OUT...Continuous Continuous Power Dissipation (T A = +0 C) -Pin Plastic DIP (derate.00mw/ C above +0 C)...00mW -Pin Plastic DIP (derate.mw/ C above +0 C)...mW 0-Pin Plastic DIP (derate.mw/ C above +0 C)...mW -Pin Narrow Plastic DIP (derate.mw/ C above +0 C)...0W -Pin Plastic DIP (derate.0mw/ C above +0 C)...00mW -Pin Wide SO (derate.mw/ C above +0 C)...mW Note : Maximum reflow temperature for the MAX/MAX is + C. ELECTRICAL CHARACTERISTICS MAX/MAX0 MAX 0-Pin Wide SO (derate.00mw/ C above +0 C)...00mW -Pin Wide SO (derate.mw/ C above +0 C)...mW -Pin Wide SO (derate.0mw/ C above +0 C)...W -Pin Plastic FP (derate.mw/ C above +0 C)...mW -Pin CERDIP (derate.0mw/ C above +0 C)...mW -Pin CERDIP (derate.00mw/ C above +0 C)...00mW 0-Pin CERDIP (derate.mw/ C above +0 C)...mW -Pin Narrow CERDIP (derate.0mw/ C above +0 C)...W -Pin Sidebraze (derate 0.0mW/ C above +0 C)...W -Pin SSOP (derate.mw/ C above +0 C)...mW Operating Temperature Ranges MAX C...0 C to +0 C MAX E...-0 C to + C MAX M...- C to + C Storage Temperature Range...- C to +0 C Lead Temperature (soldering, s) (Note ) C 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. (MAX/0//////0/, = +V ±; MAX/MAX, = V ±% C C =.0μF; MAX/MAX, = V ±%; =.V to.v; T A = T MIN to T MAX ; unless otherwise noted.) PARAMETER CONDITIONS MIN TYP MAX UNITS Output Voltage Swing All transmitter outputs loaded with kω to ground ±.0 ±. V MAX/ Power-Supply Current No load, T A = + C MAX/0/ /0/ ma MAX/ 0. Power-Supply Current MAX. MAX ma Shutdown Supply Current T A = + C MAX 0 MAX0///0/ μa Input Logic Threshold Low T IN ; EN, SHDN (MAX); EN, SHDN (MAX0/ ) 0. V T IN.0 Input Logic Threshold High EN, SHDN (MAX); V. EN, SHDN (MAX0///0/) Logic Pullup Current T IN =0V. 00 μa Receiver Input Voltage Operating Range V Maxim Integrated
6 ELECTRICAL CHARACTERISTICS MAX/MAX0 MAX (continued) (MAX/0//////0/, = +V ±; MAX/MAX, = V ±% C C =.0μF; MAX/MAX, = V ±%; =.V to.v; T A = T MIN to T MAX ; unless otherwise noted.) PARAMETER CONDITIONS MIN TYP MAX UNITS RS- Input Threshold Low RS- Input Threshold High T A = + C, = V T A = + C, = V Normal operation SHDN = V (MAX) SHDN = 0V (MAX//0/) Shutdown (MAX) SHDN = 0V, EN = V (R IN, R IN ) Normal operation SHDN = V (MAX) SHDN = 0V (MAX//0/) Shutdown (MAX) SHDN = 0V, EN = V (R IN R IN ) RS- Input Hysteresis = V, no hysteresis in shutdown V RS- Input Resistance T A = + C, = V kω Output Voltage Low I OUT =.ma (MAX//, I OUT =.ma) 0. V Output Voltage High I OUT = -ma V Output Leakage Current Receiver Output Enable Time 0V R OUT ; EN = 0V (MAX); EN = (MAX ) Normal MAX 00 operation MAX///0/ 00 V V 0.0 ± μa ns Receiver Output Disable Time Normal MAX 00 operation MAX///0/ 0 ns Propagation Delay Transition Region Slew Rate RS- IN to OUT, C L = 0pF Normal operation 0. SHDN = 0V (MAX) MAX/MAX/MAX, T A = + C, = V, R L = kω to kω, C L = 0pF to 00pF, measured from +V to -V or -V to +V Transmitter Output Resistance = = = 0V, V OUT = ±V 00 Ω t PHLS t PLHS MAX/MAX0/MAX, T A = + C, = V, R L = kω to kω C L = 0pF to 00pF, measured from +V to -V or -V to +V μs V/μs Transmitter Output Short-Circuit Current ± ma ma Maxim Integrated
7 MAX/MAX0 MAX VOH (V) VOL (V) TRANSMITTER OUTPUT VOLTAGE (V OH ) vs. TRANSMITTER LOADED TRANSMITTERS LOADED TRANSMITTERS LOADED..0. TRANS- MITTER LOADED TRANS- MITTERS LOADED (V) TRANSMITTER OUTPUT VOLTAGE (V OL ) vs. TRANS- MITTERS LOADED TRANS- MITTERS LOADED TRANS- MITTERS LOADED T A = + C C C = TRANSMITTER LOADS = kω 00pF..0. (V) T A = + C C C = TRANSMITTER LOADS = kω 00pF MAX0-0 MAX0-0 VOH (V) VOL (V) TRANSMITTER OUTPUT VOLTAGE (V OH ) vs. LOAD CAPACITANCE AT DIFFERENT DATA RATES 0kb/s 0kb/s 0kb/s T A = + C = +V TRANSMITTERS LOADED R L = kω C C = LOAD CAPACITANCE (pf) TRANSMITTER OUTPUT VOLTAGE (V OL ) vs. LOAD CAPACITANCE AT DIFFERENT DATA RATES T A = + C = +V TRANSMITTERS LOADED R L = kω C C = 0kb/s 0kb/s 0kb/s LOAD CAPACITANCE (pf) MAX0-0 MAX0-0 SLEW RATE (V/μs), (V) TRANSMITTER SLEW RATE vs. LOAD CAPACITANCE TRANSMITTER LOADED TRANSMITTERS LOADED TRANSMITTERS LOADED T A = + C = +V LOADED, R L = kω C C = TRANSMITTERS LOADED LOAD CAPACITANCE (pf) TRANSMITTER OUTPUT VOLTAGE (, ) vs. LOAD CURRENT AND EQUALLY LOADED T A = + C = +V C C = LOADED, NO LOAD ON LOADED, NO LOAD ON ALL TRANSMITTERS UNLOADED CURRENT (ma) MAX0-0 MAX0-0, WHEN EXITING SHUTDOWN ( CAPACITORS) MAX0- O SHDN* 00ms/div *SHUTDOWN POLARITY IS REVERSED FOR NON MAX PARTS Maxim Integrated
8 ABSOLUTE MAXIMUM RATINGS MAX/MAX MAX Supply Voltage ( )...-0.V to +V Input Voltages T IN ENA, ENB, ENR, ENT, ENRA, ENRB, ENTA, ENTB...-0.V to ( + 0.V) R IN...±V T OUT (Note )...±V R OUT...-0.V to ( + 0.V) Short Circuit (one output at a time) T OUT to...continuous R OUT to...continuous 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. ELECTRICAL CHARACTERISTICS MAX/MAX MAX Continuous Power Dissipation (T A = +0 C) -Pin Wide SO (derate.0mw/ C above +0 C)...W 0-Pin Plastic DIP (derate.mw/ C above +0 C)...mW -Pin PLCC (derate.mw/ C above +0 C)...0W Operating Temperature Ranges MAXC, MAX_C...0 C to +0 C MAXE, MAX_E...-0 C to + C Storage Temperature Range...- C to +0 C Lead Temperature (soldering,s) (Note ) C Note : Input voltage measured with transmitter output in a high-impedance state, shutdown, or = 0V. Note : Maximum reflow temperature for the MAX/MAX/MAX/MAX is + C. (MAX, =.0V ±%; MAX MAX, = +.0V ±%, external capacitors C C = ; T A = T MIN to T MAX ; unless otherwise noted.) PARAMETER RS- TRANSMITTERS Input Logic Threshold Low Input Logic Threshold High Logic Pullup/lnput Current Data Rate Output Voltage Swing Output Leakage Current (Shutdown) Transmitter Output Resistance Output Short-Circuit Current RS- RECEIVERS RS- Input Voltage Operating Range RS- Input Threshold Low RS- Input Threshold High RS- Input Hysteresis RS- Input Resistance Output Voltage Low Output Voltage High Output Short-Circuit Current Output Leakage Current Normal operation Tables a d Shutdown Tables a d, normal operation All transmitter outputs loaded with kω to Tables a d ENA, ENB, ENT, ENTA, ENTB =, V OUT = ±V = 0V, V OUT = ±V = = = 0V, V OUT = ±V (Note ) V OUT = 0V = V = V = V CONDITIONS I OUT =.ma I OUT = -.0mA Sourcing V OUT = Shrinking V OUT = Normal operation, outputs disabled, Tables a d, 0V V OUT, ENR_ = MIN TYP MAX UNITS. 0. V. V 0 ±0.0 ± μa 0 kbps ± ±. V ±0.0 ± μa ±0.0 ± 00 M Ω ± ±0 ma ± V 0.. V.. V V kω V V ma ±0.0 ±0. μa Maxim Integrated
9 ELECTRICAL CHARACTERISTICS MAX/MAX MAX (continued) (MAX, =.0V ±%; MAX MAX, = +.0V ±%, external capacitors C C = ; T A = T MIN to T MAX ; unless otherwise noted.) PARAMETER CONDITIONS MIN TYP MAX UNITS POWER SUPPLY AND CONTROL LOGIC Operating Supply Voltage MAX.. MAX MAX.. V Supply Current (Normal Operation) Shutdown Supply Current Control Input AC CHARACTERISTICS Transition Slew Rate No load MAX 0 MAX MAX 0 kω loads on MAX 0 all outputs MAX MAX T A = + C T A = T MIN to T MAX 0 Leakage current ± Threshold low. 0. Threshold high.. C L = 0pF to 00pF, R L = kω to kω, = V, T A = + C, measured from +V to -V or -V to +V 0 ma μa μa V V/μs Transmitter Propagation Delay TLL to RS- (Normal Operation), Figure Receiver Propagation Delay TLL to RS- (Normal Operation), Figure Receiver Propagation Delay TLL to RS- (Low-Power Mode), Figure t PHLT.. t PLHT.. t PHLR 0.. t PLHR 0.. t PHLS 0. t PLHS.0 μs μs μs Transmitter + to - Propagation Delay Difference (Normal Operation) t PHLT - t PLHT 0 ns Receiver + to - Propagation Delay Difference (Normal Operation) t PHLR - t PLHR 0 ns Receiver-Output Enable Time, Figure t ER 0 00 ns Receiver-Output Disable Time, Figure t DR 0 00 ns Transmitter Enable Time t ET MAX MAX (excludes charge-pump startup) μs MAX/MAX MAX (includes charge-pump startup) ms Transmitter Disable Time, Figure t DT 0 ns Note : The 00Ω minimum specification complies with EIA/TIA-E, but the actual resistance when in shutdown mode or = 0V is MΩ as is implied by the leakage specification. Maxim Integrated
10 TRANSMITTER SLEW RATE (V/μs) TRANSMITTER SLEW RATE vs. LOAD CAPACITANCE EXTERNAL POWER SUPPLY CAPACITORS = V 0kb/s DATA RATE TRANSMITTERS LOADED WITH kω 0 LOAD CAPACITANCE (nf) MAX0- OUTPUT VOLTAGE (V) MAX/MAX MAX OUTPUT VOLTAGE vs. LOAD CURRENT FOR AND AND LOADED = V EXTERNAL CHARGE PUMP CAPACITORS TRANSMITTERS DRIVING kω AND 000pF AT 0kb/s AND LOADED EITHER OR LOADED LOADED LOADED LOAD CURRENT (ma) MAX0-, V (V) TRANSMITTER OUTPUT VOLTAGE (, ) vs. LOAD CAPACITANCE AT DIFFERENT DATA RATES = V WITH ALL TRANSMITTERS DRIVEN LOADED WITH kω kb/s 0kb/s 00kb/s ALL CAPACITIORS 0 LOAD CAPACITANCE (nf) 0kb/s 0kb/s 0kb/s MAX0- Maxim Integrated
11 +V INPUT OUTPUT t PLHT 0V t PHLT 0V INPUT OUTPUT t PHLR t PHLS 0V* +V 0% 0% *EXCEPT FOR R ON THE MAX WHERE -V IS USED. 0% 0% t PLHR t PLHS EN R X IN a) TEST CIRCUIT EN INPUT R X +V R X OUT kω 0pF 0V - V EN SHDN +V 0V OUTPUT DISABLE TIME (t DT ) +V OUTPUT ENABLE TIME (t ER ) 0V RECEIVER +.V +0.V -V a) TIMING DIAGRAM b) ENABLE TIMING EN INPUT 0V +V EN OR 0 T X V OH OUTPUT DISABLE TIME (t DR ) V OH - 0.V kω 0pF RECEIVER V OL V OL + 0.V - V b) TEST CIRCUIT c) DISABLE TIMING Maxim Integrated
12 ENT ENR ENT ENR TA TA TB TB RA RA RB RB RA~RA RA RB~RB RB 0 RA~RA RA RB~RB RB ENA ENB TA TA TB TB RA RA RB RB RB~RB RB 0 RA~RA RA RA~RA RA RB~RB RA Maxim Integrated
13 ENTA ENTB ENRA ENRB MAX TA TA TB TB RA RA RB RB MAX TA TA TB TB RA RA RB RB MAX TA TA TB TB RA RA RB RB Maxim Integrated
14 ± ± SHDN ± ± μ μ± μ μ μ μ μ μ MAX MAX MAX MAX MAX0 X X Maxim Integrated
15 ± μ SHDN EN SHDN μ ENR ENR ENR Maxim Integrated
16 ENA ENB ENA ENB ENRA ENRB ENTA ENTB ENTA ENTB ENRA ENRB ENTA ENTB ENTA ENTB ENRA ENRB ENTA ENTB ENTA ENTB Maxim Integrated
17 MAX0 MAX MAXA DIP/SO T OUT R IN R OUT T IN T IN R OUT C C C+ C- C+ C- T OUT R IN C V C+ CC +V +V TO +V C- VOLTAGE DOUBLER C+ +V TO -V -V C- VOLTAGE INVERTER C +V 00kΩ T IN T OUT +V RS- 00kΩ T IN T OUT R OUT +V INPUT C R IN DEVICE MAX0 MAX MAXA CAPACITANCE (μf) C C C C C R OUT kω kω R IN RS- +V INPUT C ALL CAPACITORS = 0. C MAX MAX SHDN T OUT R IN R OUT T IN T OUT MAX MAX 0 SHDN T OUT R IN R OUT C C () EN C+ C- C+ C- () EN C+ C- C+ C- C+ VCC +V TO +V +V C- VOLTAGE DOUBLER C+ +V TO -V -V C- VOLTAGE INVERTER C +V 00kΩ TIN +V 00kΩ TIN (EXCEPT MAX0) TOUT (EXCEPT MAX0) TOUT RS- T OUT R IN T IN R OUT DIP/SO R IN R OUT SSOP T IN T IN ROUT ROUT RIN kω RIN RS- ( ) ARE FOR MAX ONLY. PIN NUMBERS IN TYPICAL OPERATING CIRCUIT ARE FOR DIP/SO PACKAGES ONLY. () EN kω SHDN Maxim Integrated
18 ENR ENR T IN T IN R OUT R OUT R OUT R IN R IN R IN MAX 0 ENT T IN T IN T IN R OUT R OUT R IN R IN T IN T IN T IN T IN T IN 0. +V +V +V +V +V +V 00kΩ 00kΩ 00kΩ 00kΩ 00kΩ T OUT T OUT T OUT T OUT T OUT T OUT T OUT T OUT T OUT ENT T OUT T OUT T OUT R OUT R IN kω SO R OUT R IN kω MAX FUNCTIONAL DESCRIPTION RECEIVERS TRANSMITTERS CONTROL PINS RECEIVER ENABLE (ENR) TRANSMITTER ENABLE (ENT) R OUT R OUT R OUT R IN kω R IN kω R IN kω 0 PINS (ENR,,, T OUT) ARE INTERNALLY CONNECTED. CONNECT EITHER OR BOTH EXTERNALLY. T OUT IS A SINGLE DRIVER. ENR ENR Maxim Integrated
19 T OUT T OUT T OUT R IN R OUT T IN T IN R OUT R IN MAX MAX 0 T OUT R IN R OUT SHDN (SHDN) EN (EN) R IN* R OUT* T IN T IN C+.0μF C- C+.0μF C- +V 00kΩ T IN T T OUT +V 00kΩ T IN T OUT T +V.0μF +V INPUT +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER 00kΩ 0 T IN T T OUT +V 00kΩ T IN T T OUT.0μF.0μF RS- C+ R OUT* R IN* R OUT R R IN kω C- C- Wide SO/ SSOP C+ LOGIC R OUT R R IN kω R OUT R R IN kω RS- R OUT R kω R IN *R AND R IN MAX REMAIN ACTIVE IN SHUTDOWN NOTE: PIN LABELS IN ( ) ARE FOR MAX R OUT R R IN kω SHDN EN (EN) (SHDN) Maxim Integrated
20 MAX0 DIP/SO 0.0μF.0μF x T OUT T IN SHDN T OUT T IN T IN C- C+ T OUT T OUT T OUT T IN T IN C+ C- C+ C- C+ C- T IN +V T IN +V T IN +V T IN +V T IN.0μF +V +V INPUT VCC +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER 00kΩ 00kΩ 00kΩ 00kΩ 00kΩ T T T T T T OUT T OUT T OUT T OUT 0 T OUT.0μF.0μF RS- SHDN.0μF +V INPUT +.V TO +V C+ C- T OUT R IN R OUT T IN MAX DIP T OUT R IN ROUT T IN C+ C- T OUT R IN R OUT T IN MAX SO T OUT R IN R OUT T IN.0μF C+ C- () +V TO -V VOLTAGE CONVERTER +V 00kΩ () () T IN T OUT T +V 00kΩ T IN T OUT T () () R OUT R IN R R OUT R kω R IN () C.0μF RS- RS- kω PIN NUMBERS IN ( ) ARE FOR SO PACKAGE. () 0 Maxim Integrated
21 MAX MAXA DIP/SO 0 R OUT R IN T OUT C- C+ (C-) C- (C+) (C+) C+ (C-) DO NOT MAKE CONNECTIONS TO THESE PINS INTERNAL - POWER SUPPLY INTERNAL +V POWER SUPPLY 0 T IN T IN +V +V 00kΩ 00kΩ +V INPUT kω T OUT T OUT R OUT R IN R OUT.0μF R IN T IN T IN R OUT R IN T OUT () C+ () CS- ( ) ARE FOR SO PACKAGE ONLY. () C+ () C- () () kω C+ () C+ C- C- () RS- RS- T OUT T OUT T IN T IN MAX T OUT T OUT T IN T IN.0μF.0μF C+ C- C+ C- T IN.0μF +V +V +V INPUT +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER 00kΩ 00kΩ T T OUT.0μF.0μF C+ DIP/SO C- C+ C- T IN T IN T IN +V +V 00kΩ 00kΩ T T T T OUT T OUT T OUT RS- Maxim Integrated
22 T OUT T OUT T OUT T OUT R IN R OUT MAX 0 R IN R OUT T IN SHDN EN T OUT +V INPUT.0μF +V 00kΩ T IN T T OUT +V 00kΩ T IN T T OUT +V 00kΩ T IN T OUT T +V 00kΩ T IN T OUT T +V 00kΩ T IN T OUT T RS- T IN T IN R OUT R IN R OUT T IN R OUT T R IN kω R IN T IN R OUT R IN R OUT R kω R IN DIP R OUT R kω R IN RS- R OUT R R IN kω R OUT R IN R 0 EN kω SHDN Maxim Integrated
23 T OUT T OUT T OUT T OUT R IN R OUT.0μF.0μF C+ C- C+ C- +V 00kΩ T IN T T OUT +V.0μF.0μF +V TO +V VOLTAGE DOUBLER +V TO -V.0μF VOLTAGE INVERTER 00kΩ +V INPUT T IN T OUT T R IN R OUT T IN MAX 0 SHDN EN T IN +V 00kΩ T IN T OUT T RS- T IN T IN R OUT R IN +V 00kΩ T IN T OUT T C+ C- C+ C- DIP/SO R OUT R R IN kω R OUT R R IN kω RS- R OUT R IN R kω 0 EN SHDN Maxim Integrated
24 T OUT T OUT T OUT R IN R OUT MAX 0 T OUT R IN R OUT T IN T OUT.0μF.0μF C+ C- C+ C- +V.0μF 00kΩ T IN T T OUT +V 00kΩ T IN T OUT T +V 00kΩ +V INPUT.0μF +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER.0μF T IN T IN R OUT R IN C- C+ T IN T IN C+ C- T IN T OUT T +V 00kΩ T IN T OUT T +V 00kΩ T IN T OUT 0 T RS- DIP/SO R OUT R R IN kω R OUT R kω R IN RS- R OUT R R IN kω Maxim Integrated
25 T OUT T OUT R IN R OUT T IN R OUT R IN MAX 0 T OUT R IN R OUT T IN T OUT T IN T IN R OUT.0μF.0μF C+ C- C+ C- +V 00kΩ T IN T T OUT +V.0μF 00kΩ +V INPUT.0μF +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER T IN T OUT T +V 00kΩ T IN T OUT T +V 00kΩ.0μF RS- C+ R IN T IN T OUT 0 T C- C- C+ R OUT R IN R DIP/SO kω R OUT R R IN kω R OUT R R IN kω RS- R OUT R R IN kω Maxim Integrated
26 R OUT R IN C+ MAX 0 T IN T IN R OUT R IN T OUT T OUT.0μF.0μF +V INPUT C+ +V TO -V C- VOLTAGE INVERTER +V 00kΩ T IN T T OUT +V 00kΩ T IN T OUT 0 T +V 00kΩ.V TO.V INPUT T IN T OUT T.0μF RS- C- R IN R IN R OUT R OUT T IN R OUT R IN R kω R OUT R IN EN T OUT R OUT R IN R kω DIP/SO R OUT R kω R IN RS- R OUT R R IN kω R OUT R R IN kω EN Maxim Integrated
27 RIN TOUT TOUT TOUT TOUT RIN ROUT TIN C+.0μF C- C+.0μF C- +V 00kΩ T IN T T OUT +V 00kΩ T IN T OUT T +V.0μF +V INPUT +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER 00kΩ 0.0μF.0μF R OUT T IN T IN R OUT R IN 0 MAX0 0 SHDN EN T OUT R IN R OUT T IN T IN R OUT R IN T IN T OUT T +V 00kΩ T IN T T OUT +V 00kΩ T IN T OUT T R OUT R R IN kω R OUT R IN R RS- 0 kω C+ C- C+ C R OUT R R IN kω RS- Plastic FP R OUT R R IN 0 kω R OUT R R IN kω EN SHDN Maxim Integrated
28 C+ C- C+ C- T IN T IN C+ C- C+ C- T OUT R IN MAX T OUT R IN R OUT T IN T IN R OUT V +V +V INPUT +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER 00kΩ 00kΩ ALL CAPACITORS = T OUT T OUT +V -V 0. RS- DIP/SO R OUT R IN kω RS- R OUT R IN RECEIVER INPUT -V OPEN +V R OUTPUT HIGH HIGH LOW R OUTPUT HIGH LOW LOW kω Maxim Integrated
29 R A IN R A IN R A IN R A OUT R A OUT R A OUT R A OUT R A OUT T A IN T A IN T A IN RAIN RAIN TAOUT TAOUT TAOUT TAOUT TBOUT TBOUT TBOUT TBOUT RBIN 0 R B IN R B IN R B IN R B IN R B OUT MAX R B OUT 0 R B OUT R B OUT R B OUT T B IN T B IN C+ C- C+ C- T A OUT T A IN T A OUT T A IN T A OUT T A IN T A OUT T A IN +V 0 +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER +V +V 00kΩ +V +V 00kΩ +V +V 00kΩ +V +V 00kΩ T B OUT T B IN T B OUT T B IN T B OUT T B IN T B OUT T B IN 0 0 R A IN R B IN TAIN VCC C+ C- C+ C- TBIN TBIN kω kω PLCC R A OUT R B OUT R A IN R B IN MAX FUNCTIONAL DESCRIPTION RECEIVERS A-SIDE RECEIVERS B-SIDE RECEIVERS TRANSMITTERS A-SIDE TRANSMITTERS B-SIDE TRANSMITTERS NO CONTROL PINS kω R A OUT R A IN kω R A OUT R A IN kω R B OUT R B IN kω R B OUT R B IN kω kω R A OUT R B OUT R A IN R B IN 0 kω kω R A OUT R B OUT Maxim Integrated
30 ENR T A IN T A IN T A IN T A IN R A OUT R A OUT R A OUT R A OUT R A OUT R A IN MAX 0 ENT T B IN T B IN T B IN T B IN R B OUT R B OUT R B OUT R B OUT 0 R B OUT T A OUT T A IN T A OUT T A IN T A OUT T A IN T A OUT T A IN +V 0 +V +V 00kΩ +V +V 00kΩ +V +V 00kΩ +V +V 00kΩ T B OUT T B IN T B OUT T B IN T B OUT T B IN T B OUT T B IN R A IN R A IN R A IN R B IN R B IN R B IN ENR R A IN ENT R B IN R A IN T A OUT T A OUT T A OUT R B IN R B IN T B OUT T B OUT kω R A OUT R A IN kω R B OUT R B IN 0 T A OUT 0 DIP T B OUT T B OUT kω R A OUT R A IN kω R B OUT R B IN kω kω MAX FUNCTIONAL DESCRIPTION RECEIVERS A-SIDE RECEIVERS (RA ALWAYS ACTIVE) B-SIDE RECEIVERS (RB ALWAYS ACTIVE) TRANSMITTTERS A-SIDE TRANSMITTERS CONTROL PINS RECEIVER ENABLE (ENR) TRANSMITTER ENABLE (ENT) R A OUT R A IN kω R A OUT R A IN kω R B OUT R B IN kω R B OUT R B IN kω R A OUT R B OUT 0 0 Maxim Integrated
31 ENA T A IN T A IN T A IN T A IN R A OUT R A OUT R A OUT R A OUT R A OUT R A IN MAX 0 ENB T B IN T B IN T B IN T B IN R B OUT R B OUT R B OUT R B OUT 0 R B OUT T A OUT T A IN T A OUT T A IN T A OUT T A IN T A OUT +V 0 +V +V 00kΩ +V +V 00kΩ +V +V 00kΩ +V +V T B OUT T B IN T B OUT T B IN T B OUT T B IN T B OUT R A IN R A IN R A IN R A IN R B IN R B IN R B IN R B IN 00kΩ T A IN T B IN ENA ENB R A IN R B IN T A OUT R B IN kω kω T A OUT T A OUT T B OUT T B OUT R A OUT R A IN R B OUT R B IN 0 T A OUT T B OUT 0 T B OUT kω kω DIP R A OUT R B OUT R A IN R B IN MAX FUNCTIONAL DESCRIPTION RECEIVERS A-SIDE RECEIVERS (RA ALWAYS ACTIVE) B-SIDE RECEIVERS (RB ALWAYS ACTIVE) TRANSMITTERS A-SIDE TRANSMITTERS B-SIDE TRANSMITTERS CONTROL PINS ENABLE A-SIDE (ENA) ENABLE B-SIDE (ENB) kω R A OUT R A IN kω R A OUT R A IN kω kω R B OUT R B IN kω R B OUT R B IN kω R A OUT R B OUT 0 Maxim Integrated
32 ENTA T A IN T A IN T A IN T A IN R B OUT R A OUT R A OUT R A OUT R A OUT ENRA R A IN R A IN R A IN MAX 0 ENTB T B IN T B IN T B IN T B IN R B OUT R B OUT R B OUT R B OUT 0 ENRB R B IN R B IN R B IN ENTA T A OUT T A IN T A OUT T A IN T A OUT T A IN T A OUT T A IN R B OUT +V 0 +V +V 00kΩ +V +V 00kΩ +V +V 00kΩ +V +V 00kΩ ENTB T B OUT T B IN T B OUT T B IN T B OUT T B IN T B OUT T B IN R B IN R A IN R B IN kω T A OUT R B IN T A OUT T B OUT R A IN R B IN T A OUT T A OUT 0 DIP T B OUT T B OUT T B OUT kω R A OUT R A IN kω R B OUT R B IN MAX FUNCTIONAL DESCRIPTION RECEIVERS A-SIDE RECEIVERS B-SIDE RECEIVERS (RB ALWAYS ACTIVE) TRANSMITTERS A-SIDE TRANSMITTERS B-SIDE TRANSMITTERS CONTROL PINS ENABLE RECEIVER A-SIDE (ENRA) ENABLE RECEIVER B-SIDE (ENRB) ENABLE RECEIVER A-SIDE (ENTA) ENABLE RECEIVER B-SIDE (ENTB) kω R A OUT R A IN kω R A OUT R A IN kω R A OUT ENRA 0 kω R B OUT R B IN kω R B OUT R B IN kω R B OUT ENRB 0 Maxim Integrated
33 R A IN R A IN ENRA RAIN RAIN TAOUT TAOUT TAOUT TAOUT TBOUT TBOUT TBOUT TAOUT RBIN 0 R B IN R B IN R B IN R A OUT ENRB R A OUT R B OUT MAX R A OUT R B OUT R A OUT T A IN T A IN T A IN T A IN 0 R B OUT R B OUT T B IN T B IN T B IN C+ C- C+ C- ENTA T A OUT T A IN T A OUT T A IN T A OUT T A IN T A OUT +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER +V +V +V +V 0 +V 00kΩ 00kΩ 00kΩ +V +V +V +V ENTB T B OUT T B IN T B OUT T B IN T B OUT T B IN T B OUT 0 ENTA 0 VCC C+ C+ C- C- ENTB TBIN T A IN 00kΩ T B IN PLCC R A IN R B IN kω kω MAX FUNCTIONAL DESCRIPTION RECEIVERS A-SIDE RECEIVERS B-SIDE RECEIVERS TRANSMITTERS A-SIDE TRANSMITTERS B-SIDE TRANSMITTERS CONTROL PINS ENABLE RECEIVER A-SIDE (ENRA) ENABLE RECEIVER B-SIDE (ENRB) ENABLE RECEIVER A-SIDE (ENTA) ENABLE RECEIVER B-SIDE (ENTB) R A OUT R A IN kω R A OUT R A IN kω R A OUT R A IN R B OUT R B IN kω R B OUT R B IN kω R B OUT R B IN 0 kω kω R A OUT ENRA R B OUT ENRB Maxim Integrated
34 RAIN RAIN RAIN TAOUT TAOUT TAOUT TBOUT TBOUT TBOUT RBIN RBIN 0 R A IN R B IN R A IN R B IN ENRA R B IN R A OUT ENRB R A OUT R B OUT MAX R A OUT R B OUT R A OUT R B OUT R A OUT R B OUT T A IN R B OUT T A IN 0 T B IN T A IN T B IN C+ C- C+ C- ENTA T A OUT T A IN T A OUT T A IN T A OUT T A IN R A IN +V TO +V VOLTAGE DOUBLER +V TO -V VOLTAGE INVERTER +V +V +V 0 +V 00kΩ 00kΩ 00kΩ +V +V +V ENTB T B OUT T B IN T B OUT T B IN T B OUT T B IN R B IN 0 0 kω kω ENTA VCC C+ C- C+ C- ENTB TBIN R A OUT R B OUT PLCC R A IN R B IN kω kω MAX FUNCTIONAL DESCRIPTION RECEIVERS A-SIDE RECEIVERS B-SIDE RECEIVERS TRANSMITTERS A-SIDE TRANSMITTERS B-SIDE TRANSMITTERS CONTROL PINS ENABLE RECEIVER A-SIDE (ENRA) ENABLE RECEIVER B-SIDE (ENRB) ENABLE RECEIVER A-SIDE (ENTA) ENABLE RECEIVER B-SIDE (ENTB) R A OUT R A IN kω R A OUT R A IN kω R A OUT R A IN R B OUT R B IN kω R B OUT R B IN kω R B OUT R B IN 0 kω kω R A OUT ENRA R B OUT ENRB Maxim Integrated
35 PART TEMP RANGE PIN-PACKAGE PART TEMP RANGE PIN-PACKAGE MAXCPN 0 C to +0 C Plastic DIP MAXAC/D 0 C to +0 C Dice* MAXCWN 0 C to +0 C Wide SO MAXAEPE -0 C to + C Plastic DIP MAXC/D 0 C to +0 C Dice* MAXAESE -0 C to + C Narrow SO MAXEPN -0 C to + C Plastic DIP MAXAEWE -0 C to + C Wide SO MAXEWN -0 C to + C Wide SO MAXAEJE -0 C to + C CERDIP MAXEJN -0 C to + C CERDIP MAXAMJE - C to + C CERDIP MAXMJN - C to + C CERDIP MAXAMLP - C to + C 0 LCC MAXCAI 0 C to +0 C SSOP MAXCPP 0 C to +0 C 0 Plastic DIP MAXCWI 0 C to +0 C Wide SO MAXEPP -0 C to + C 0 Plastic DIP MAXC/D 0 C to +0 C Dice* MAXACPP 0 C to +0 C 0 Plastic DIP MAXEAI -0 C to + C SSOP MAXACWP 0 C to +0 C 0 Wide SO MAXEWI -0 C to + C Wide SO MAXAEPP -0 C to + C 0 Plastic DIP MAXCWI 0 C to +0 C Wide SO MAXAEWP -0 C to + C 0 Wide SO MAXEWI -0 C to + C Wide SO MAXCPE 0 C to +0 C Plastic DIP MAX0CPP 0 C to +0 C 0 Plastic DIP MAXCWE 0 C to +0 C Wide SO MAX0CWP 0 C to +0 C 0 Wide SO MAXC/D 0 C to +0 C Dice* MAX0C/D 0 C to +0 C Dice* MAXEPE -0 C to + C Plastic DIP MAX0EPP -0 C to + C 0 Plastic DIP MAXEWE -0 C to + C Wide SO MAX0EWP -0 C to + C 0 Wide SO MAXEJE -0 C to + C CERDIP MAX0EJP -0 C to + C 0 CERDIP MAXMJE - C to + C CERDIP MAX0MJP - C to + C 0 CERDIP MAXCPG 0 C to +0 C Wide Plastic DIP MAXCPD 0 C to +0 C Plastic DIP MAXEPG -0 C to + C Wide Plastic DIP MAXCWE 0 C to +0 C Wide SO MAXEDG -0 C to + C Ceramic SB MAXCJD 0 C to +0 C CERDIP MAXMDG - C to + C Ceramic SB MAXC/D 0 C to +0 C Dice* MAXCNG 0 C to +0 C Narrow Plastic DIP MAXEPD -0 C to + C Plastic DIP MAXCWG 0 C to +0 C Wide SO MAXEWE -0 C to + C Wide SO MAXC/D 0 C to +0 C Dice* MAXEJD -0 C to + C CERDIP MAXENG -0 C to + C Narrow Plastic DIP MAXMJD - C to + C CERDIP MAXEWG -0 C to + C Wide SO MAXCPE 0 C to +0 C Plastic DIP MAXERG -0 C to + C Narrow CERDIP MAXCSE 0 C to +0 C Narrow SO MAXMRG - C to + C Narrow CERDIP MAXCWE 0 C to +0 C Wide SO MAXCNG 0 C to +0 C Narrow Plastic DIP MAXC/D 0 C to +0 C Dice* MAXCWG 0 C to +0 C Wide SO MAXEPE -0 C to + C Plastic DIP MAXC/D 0 C to +0 C Dice* MAXESE -0 C to + C Narrow SO MAXENG -0 C to + C Narrow Plastic DIP MAXEWE -0 C to + C Wide SO MAXEWG -0 C to + C Wide SO MAXEJE -0 C to + C CERDIP MAXERG -0 C to + C Narrow CERDIP MAXMJE - C to + C CERDIP MAXMRG - C to + C Narrow CERDIP MAXMLP - C to + C 0 LCC MAXCNG 0 C to +0 C Narrow Plastic DIP MAXACPE 0 C to +0 C Plastic DIP MAXCWG 0 C to +0 C Wide SO MAXACSE 0 C to +0 C Narrow SO MAXC/D 0 C to +0 C Dice* MAXACWE 0 C to +0 C Wide SO MAXENG -0 C to + C Narrow Plastic DIP * Maxim Integrated
36 PART TEMP RANGE PIN-PACKAGE PART TEMP RANGE PIN-PACKAGE MAXEWG -0 C to + C Wide SO MAXCPE 0 C to +0 C Plastic DIP MAXERG -0 C to + C Narrow CERDIP MAXCSE 0 C to +0 C Narrow SO MAXMRG - C to + C Narrow CERDIP MAXCWE 0 C to +0 C Wide SO MAXCNG 0 C to +0 C Narrow Plastic DIP MAXC/D 0 C to +0 C Dice* MAXCWG 0 C to +0 C Wide SO MAXEPE -0 C to + C Plastic DIP MAXC/D 0 C to +0 C Dice* MAXESE -0 C to + C Narrow SO MAXENG -0 C to + C Narrow Plastic DIP MAXEWE -0 C to + C Wide SO MAXEWG -0 C to + C Wide SO MAXEJE -0 C to + C CERDIP MAXERG -0 C to + C Narrow CERDIP MAXMJE - C to + C CERDIP MAXMRG - C to + C Narrow CERDIP MAXCQH 0 C to +0 C PLCC MAX0CMH 0 C to +0 C Plastic FP MAXC/D 0 C to +0 C Dice* MAX0C/D 0 C to +0 C Dice* MAXEQH -0 C to + C PLCC MAXCAI 0 C to +0 C SSOP MAXCPL 0 C to +0 C 0 Plastic DIP MAXCWI 0 C to +0 C Wide SO MAXC/D 0 C to +0 C Dice* MAXC/D 0 C to +0 C Dice* MAXEPL -0 C to + C 0 Plastic DIP MAXEAI -0 C to + C SSOP MAXCPL 0 C to +0 C 0 Plastic DIP MAXEWI -0 C to + C Wide SO MAXC/D 0 C to +0 C Dice* MAXCAP 0 C to +0 C 0 SSOP MAXEPL -0 C to + C 0 Plastic DIP MAXCPN 0 C to +0 C Plastic DIP MAXCPL 0 C to +0 C 0 Plastic DIP MAXCWN 0 C to +0 C Wide SO MAXC/D 0 C to +0 C Dice* MAXC/D 0 C to +0 C Dice* MAXEPL -0 C to + C 0 Plastic DIP MAXEPN -0 C to + C Plastic DIP MAXCQH 0 C to +0 C PLCC MAXEWN -0 C to + C Wide SO MAXC/D 0 C to +0 C Dice* MAXEJN -0 C to + C CERDIP MAXEQH -0 C to + C PLCC MAXMJN - C to + C CERDIP MAXCQH 0 C to +0 C PLCC MAXEQH -0 C to + C PLCC * japan.maxim-ic.com/packages マキシム ジャパン株式会社 -00 東京都品川区大崎 -- 大崎ニューシティ 号館 0F TEL: 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 Characteristics ( 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 Maxim Integrated Products, Inc. 0 Rio Robles, San Jose, CA USA Maxim Integrated Products MaximはMaxim Integrated Products, Inc. の登録商標です
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