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MAX301CPE

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MAX301CPE

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Part Number MAX301CPE
Manufacturer Maxim Integrated
Description IC SWITCH DUAL SPST 16DIP
Datasheet MAX301CPE Datasheet
Package 16-DIP (0.300", 7.62mm)
In Stock 403 piece(s)
Unit Price Request a Quote
Lead Time Can Ship Immediately
Estimated Delivery Time Sep 24 - Sep 29 (Choose Expedited Shipping)
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Part Number # MAX301CPE (Interface - Analog Switches, Multiplexers, Demultiplexers) is manufactured by Maxim Integrated and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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MAX301CPE Specifications

ManufacturerMaxim Integrated
CategoryIntegrated Circuits (ICs) - Interface - Analog Switches, Multiplexers, Demultiplexers
Datasheet MAX301CPEDatasheet
Package16-DIP (0.300", 7.62mm)
Series-
Switch CircuitSPST - NO
Multiplexer/Demultiplexer Circuit1:1
Number of Circuits2
On-State Resistance (Max)35 Ohm
Channel-to-Channel Matching (ΔRon)500 mOhm
Voltage - Supply, Single (V+)10 V ~ 30 V
Voltage - Supply, Dual (V±)��4.5 V ~ 20 V
Switch Time (Ton, Toff) (Max)150ns, 100ns
-3db Bandwidth-
Charge Injection10pC
Channel Capacitance (CS(off), CD(off))12pF, 12pF
Current - Leakage (IS(off)) (Max)500pA
Crosstalk-90dB @ 1MHz
Operating Temperature0°C ~ 70°C (TA)
Package / Case16-DIP (0.300", 7.62mm)
Supplier Device Package16-PDIP

MAX301CPE Datasheet

Page 1

Page 2

General Description The MAX301/MAX303/MAX305 are precision, dual, high- speed analog switches. The single-pole single-throw (SPST) MAX301 and double-pole single-throw (DPST) MAX305 dualswitches are normally open (NO). The sin- gle-pole double-throw (SPDT) MAX303 has two NO and two normally closed (NC) poles. All three parts offer low on resistance (less than 35Ω), guaranteed to match to within 2Ω between channels and to remain flat over the full analog signal range (Δ3max). They also offer low leak- age (less than 250pA at +25°C and less than 6nA at +85°C) and fast switching (turn-on time less than 150ns and turn-off time less than 100ns). The MAX301/MAX303/MAX305 are fabricated with Maxim’s new improved silicon-gate process for high system accuracy. Design improvements guarantee extremely low charge injection (15pC) and low power consumption (35µW). A 44V maximum breakdown volt- age allows rail-to-rail analog signal capability. These monolithic switches operate with a single positive supply (+10V to +30V) or with split supplies (±4.5V to ±20V) while retaining CMOS-logic input compatibility and fast switching. CMOS inputs provide reduced input loading. Applications Features ♦ Low On-Resistance < 22Ω Typical (35Ω Max) ♦ Guaranteed Matched On-Resistance Between Channels < 2Ω ♦ Guaranteed Flat On-Resistance over Full Analog Signal Range Δ3Ω Max ♦ Guaranteed Charge Injection < 15pC ♦ Guaranteed Off-Channel Leakage < 6nA at +85°C ♦ Single-Supply Operation (+10V to +30V) Bipolar-Supply Operation (±4.5V to ±20V) ♦ TTL-/CMOS-Logic Compatible ♦ Rail-to-Rail Analog Signal Handling Capability M A X 3 0 1 /M A X 3 0 3 /M A X 3 0 5 Precision, Dual, High-Speed Analog Switches ________________________________________________________________ Maxim Integrated Products 1 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 NO1 IN1 V- GNDN.C. N.C. N.C. COM1 TOP VIEW MAX301 VL V+ IN2 NO2COM2 N.C. N.C. N.C. 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 NO1 IN1 V- GNDNC3 COM3 N.C. COM1 MAX303 VL V+ IN2 NO2COM2 N.C. COM4 NC4 DIP/SODIP/SO 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 NO1 IN1 V- GNDNO3 COM3 N.C. COM1 MAX305 VL V+ IN2 NO2COM2 N.C. COM4 NO4 DIP/SO MAX301 LOGIC SWITCH 0 1 OFF ON MAX303 LOGIC SWITCHES 1, 2 0 1 OFF ON MAX305 LOGIC SWITCH 0 1 OFF ON SWITCHES 3, 4 ON OFF SWITCHES SHOWN FOR LOGIC "0" INPUTLCC packages on last page. Pin Configurations/Block Diagrams/Truth Tables Ordering Information 19-0159; Rev 1; 2/07 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. Ordering Information continued on last page. *Contact factory for dice specifications. **Contact factory for package availability . Sample-and-Hold Circuits Test Equipment Heads-Up Displays Guidance and Control Systems Military Radios Communication Systems Battery-Operated Systems PBX, PABX PART TEMP RANGE PIN- PACKAGE PKG CODE MAX301CPE 0°C to +70°C 16 Plastic DIP P16-1 MAX301CSE 0°C to +70°C 16 Narrow SO S16-2 MAX301CJE 0°C to +70°C 16 CERDIP J16-3 MAX301C/D 0°C to +70°C Dice* — MAX301EPE -40°C to +85°C 16 Plastic DIP P16-1 MAX301ESE -40°C to +85°C 16 Narrow SO S16-2 MAX301EJE -40°C to +85°C 16 CERDIP J16-3 MAX301MJE -55°C to +125°C 16 CERDIP** J16-3 MAX301MLP -55°C to +125°C 20LCC* L20-3

Page 3

PARAMETER SYMBOL CONDITIONS TEMP MIN TYP MAX UNITSRANGE (Note 2) SWITCH Analog-Signal Range VANA (Note 3) V- V+ V C, E 20 35 On-Resistance RON TA = +25°C M 20 30 Ω C, E 55 TA = TMIN to TMAX M 45 On-Resistance Match TA = +25°C C, E, M 0.5 2 Between Channels (Note 4) RON TA = TMIN to TMAX C, E, M 3 Ω On-Resistance Flatness TA = +25°C C, E, M 3 (Note 4) RON TA = TMIN to TMAX C, E, M 5 Ω NC or NO C, E -0.50 -0.01 0.50 Off-Leakage Current NC_(OFF) TA = +25°C M -0.25 -0.01 0.25 nA or C, E -6 6 NO_(OFF) TA = TMIN to TMAX M -20 20 C, E -0.50 -0.01 0.50 COM Off-Leakage Current COMOFF TA = +25°C M -0.25 -0.01 0.25 nA C, E -6 6 TA = TMIN to TMAX M -20 20 C, E -1.0 -0.04 1.0 COM On- COMON TA = +25°C M -0.4 -0.04 0.4 nA Leakage Current C, E -20 20 TA = TMIN to TMAX M -40.0 40.0 ELECTRICAL CHARACTERISTICS (V+ = 15V, V- = -15V, VL = +5V, GND = 0V, VINH = +2.4V, VINL = +0.8V, TA = TMIN to TMAX, unless otherwise noted.) M A X 3 0 1 /M A X 3 0 3 /M A X 3 0 5 Precision, Dual, High-Speed Analog Switches 2 ________________________________________________________________________________________________ ABSOLUTE MAXIMUM RATINGS Voltage Referenced to V- V+.......................................................................................44V GND ...................................................................................25V VL .................................................................(GND-0.3V) to (V+) +0.3V NO_, NC_, IN_, COM_ ................(V- - 2V) to (V+ + 2V) or 30mA, ..................................................................whichever occurs first Continuous Current, COM_, NO_, NC_...............................30mA Peak Current, COM_, NO_, NC_ (pulsed at 1ms, 10% duty cycle max) ..........................100mA Continuous Power Dissipation (TA = +70°C) (Note 2) 16-Pin Plastic DIP (derate 10.53mW/°C above +70°C) .....842mW 16-Pin Narrow SO (derate 8.70mW/°C above +70°C) .......696mW 16-Pin CERDIP (derate 10.00mW/°C above +70°C)..........800mW 20-Pin LCC (derate 9.09mW/°C above +70°C)..................727mW Operating Temperature Ranges: MAX30_C_ _ .......................................................0°C to +70°C MAX30_E_ _.....................................................-40°C to +85°C MAX30_M_ _..................................................-55°C to +125°C Storage Temperature Range .............................-65°C to +150°C Lead Temperature (soldering, 10s) .................................+300°C Note 1: Signals on NO_, NC_, or COM_ beyond V+ or V- are clamped by internal diodes. Limit forward current to maximum current rating. 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(NC or NO) = -10mA, VCOM_ = ±10V V+ = 15V, V- = -15V I(NC or NO) = -10mA, VCOM_ = ±10V VINH = 2.4V, VINL = 0.8V IS = -10mA VCOM_ = ±5V V+ = 15V, V- = -15V VCOM_ = +15.5V, VNC_ or VNO_ = ±15.5V, V+ = 16.5V, V- = -16.5V VCOM_ = ±15.5V, VNC_ or VNO_ = +15.5V, V+ = 16.5V, V- = -16.5V VCOM_ = ±15.5V, VNC_ or VNO_ = ±15.5V, V+ = 16.5V, V- = -16.5V

Page 4

INPUT Input Current with IINH VIN_ = 2.4V, all others = 0.8V -1.000 0.005 1.000 µAInput-Voltage High Input Current with IINH VIN_ = 0.8V, all others = 2.4V -1.000 0.005 1.000 µAInput-Voltage Low SUPPLY Power-Supply Range ±4.5 ±20 V Positive Supply Current TA = +25°C -1.00 0.01 1.00I+ TA = TMIN to TMAX -5.00 5.00 µA Negative Supply Current I- TA = +25°C -1.00 -0.01 1.00 TA = TMIN to TMAX -5.00 5.00 µA Logic-Supply Current IL TA = +25°C -1.00 0.01 1.00 TA = TMIN to TMAX -5.00 5.00 µA Ground Current IGND TA = +25°C -1.00 -0.01 1.00 TA = TMIN to TMAX -5.00 5.00 µA DYNAMIC Turn-On Time tON Figure1 TA = +25°C 100 150 ns Turn-Off Time tOFF Figure 1 TA = +25°C 60 100 ns Break-Before-Make tD MAX303 only, TA = +25°C 10 20 nsTime Delay (Note 3) Figure 2 CL = 10nF, VGEN = 0V, Charge Injection Q RGEN = 0Ω , TA = +25°C 10 15 pC (Note 3) Figure 3 Off-Isolation (Note 5) OIRR RL = 100Ω , CL = 5pF, TA = +25°C 72 dBf = 1MHz, Figure 4 Crosstalk (Note 6) RL = 50Ω , CL = 5pF, TA = +25°C 90 dBf = 1MHz, Figure 5 Off-Capacitance COF f = 1MHz, Figure 6 TA = +25°C 12 pF COM Off-Capacitance CCOM(OFF f = 1MHz, Figure 6 TA = +25°C 12 pF Channel-On Capacitance CCOM(ON) f = 1MHz, Figure 7 TA = +25°C 39 pF M A X 3 0 1 /M A X 3 0 3 /M A X 3 0 5 Precision, Dual, High-Speed Analog Switches _________________________________________________________________________________________________ 3 ELECTRICAL CHARACTERISTICS (continued) (V+ = 15V, V- = -15V, VL = +5V, GND = 0V, VINH = +2.4V, VINL = +0.8V, TA = TMIN to TMAX, unless otherwise noted.) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS(Note 2) All channels on or off, VIN = 0V or 5V, V+ = 16.5V, V- = -16.5V All channels on or off, VIN = 0V or 5V, V+ = 16.5V, V- = -16.5V All channels on or off, VIN = 0V or 5V, V+ = 16.5V, V- = -16.5V All channels on or off, VIN = 0V or 5V, V+ = 16.5V, V- = -16.5V Note 2: The algebraic convention, where the most negative value is a minimum and the most positive value a maximum, is used on this data sheet. Note 3: Guaranteed by design. Note 4: ∆ RON = ∆ RONMAX - ∆ RONMIN. On resistance match between channels and flatness are guaranteed only with specified voltages. Note 5: See Figure 4. Off isolation = 20log10 VCOM/VNC orVNO, VCOM = output, VNC or VNO = input to off switch. Note 6: Between any two switches. See Figure 5.

Page 5

M A X 3 0 1 /M A X 3 0 3 /M A X 3 0 5 4 _______________________________________________________________________________________ Precision, Dual, High-Speed Analog Switches 50 20 -20 ON-RESISTANCE vs. VCOM AND POWER-SUPPLY VOLTAGE 25 45 M A X 3 0 1 -1 VCOM (V) R O N ( Ω ) 10 35 30 -10 0 20 40 15 10 5 A: V+ = 5V, V- = -5V B: V+ = 10V, V- = -10V C: V+ = 15V, V- = -15V D: V+ = 20V, V- = -20V A B C D 35 5 -20 ON-RESISTANCE vs. VCOM AND TEMPERATURE 10 30 M A X 3 0 1 -2 VCOM (V) R O N ( Ω ) 20 20 15 -10 10 25 0 V+ = 15V, V- = -15V TA = +125°C TA = +85°C TA = +25°C TA = -55°C 140 20 0 ON-RESISTANCE vs. VCOM WITH V- = 0V 40 120 M A X 3 0 1 -3 VCOM (V) R O N ( Ω ) 20 80 60 5 15 100 10 V+ = 5V V+ = 10V V+ = 15V V+ = 20V 70 10 0 ON-RESISTANCE vs. VCOM AND V- = OV 20 60 M A X 3 0 1 -4 VANA (V) R O N ( Ω ) 20 40 30 5 15 50 10 V+ = 12V, V- = 0V TA = +125°C TA = +85°C TA = +25°C 60 -60 -20 20 CHARGE INJECTION vs. ANALOG VOLTAGE -40 40 M A X 3 0 1 -7 VCOM (V) Q ( p C ) 10 0 -20 -10 0 20 V+ = 15V, V- = -15V 100 .0001 -55 125 OFF-LEAKAGE CURRENTS vs. TEMPERATURE .001 10 M A X 3 0 1 -5 TEMPERATURE (°C) O FF L E A K A G E ( n A ) .1 .01 25 1 V+ = 16.5V V- = -16.5V VCOM = ±15V VNC OR VNO = ±15V 100 .0001 -55 125 ON-LEAKAGE CURRENTS vs. TEMPERATURE .001 10 M A X 3 0 1 -6 TEMPERATURE (°C) O N L E A K A G E ( n A ) .1 .01 25 1 V+ = 16.5V V- = -16.5V VCOM = ±15V VNC OR VNO = ±15V ________________________________________________Typical Operating Characteristics (TA = +25°C, unless otherwise noted). 100 .0001 -55 125 SUPPLY CURRENT vs. TEMPERATURE .001 10 M A X 3 0 1 -8 TEMPERATURE (°C) I+ , I- , I L ( µA ) .1 .01 25 1 I+ AT V+ = 16.5V I- AT V- = -16.5V IL AT VL = 5V

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M A X 3 0 1 /M A X 3 0 3 /M A X 3 0 5 ________________________________________________________________________________________ 5 Precision, Dual, High-Speed Analog Switches ____________________Pin Descriptions __________Applications Information Operation with Supply Voltages Other than ±15V The MAX301/MAX303/MAX305 switches operate with ±4.5V to ±20V bipolar supplies and a +10V to +30V sin- gle supply. In either case, analog signals ranging from V+ to V- can be switched. The Typical Operating Characteristics graphs show the typical on-resistance variation with analog signal and supply voltage. The usual on-resistance temperature coefficent is 0.5%/°C (typ). Logic Inputs The MAX301/MAX303/MAX305 operate with a single pos- itive supply or with bipolar supplies. The devices maintain TTL compatibility with supplies anywhere in the ±4.5V to ±20V range as long as VL = +5V. If VL is connected to V+ or another supply at voltages other than +5V, the devices will operate at CMOS-logic level inputs. Overvoltage Protection Proper power-supply sequencing is recommended for all CMOS devices. It is important not to exceed the absolute maximum ratings because stresses beyond the listed rat- ings may cause permanent damage to the devices. Always sequence V+ on first, followed by VL, V-, and logic inputs. If power-supply sequencing is not possible, add two small signal diodes in series with the supply pins for overvoltage protection (Figure 1). Adding diodes reduces the analog signal range to 1V below V+ and 1V below V-, but low switch resistance and low leakage char- acteristics are unaffected. Device operation is unchanged, and the difference between V+ to V- should not exceed +44V. DIP/SO NAME FUNCTION 1, 8 COM1, COM2 Drain (Analog Signal) 2-7 N.C. Not internally connected 9, 16 NC1, NC2 Source (Analog Signal) 10, 15 IN2, IN1 Digital Logic Inputs 11 V+ Positive Supply-Voltage Input—connected to substrate 12 VL Logic Supply-Voltage Input 13 GND Negative Supply Voltage Input 14 V- 2, 10 1, 3-9, 11, 16 5, 7, 12, 20 13, 19 14 15 17 18 Ground LCC NAME FUNCTION 1, 8, 3, 6 2, 4, 8, 10 COM_ Drain (Analog Signal) 2-7 1, 3, 6, 9, 11, 16 N.C. Not internally connected 11 14 V+ Positive Supply-Voltage Input—connected to substrate 12 15 VL Logic Supply-Voltage Input 13 17 GND Ground 14 18 V- Negative Supply Voltage Input 15, 10 19, 13 IN1, IN2 Digital Logic Inputs 16, 9, 5, 4 5, 7, 12, 20 NC_, NO_ Source (Analog Signal) LCC NAME FUNCTION 1, 8, 3, 6 2, 4, 8, 10 COM_ Drain (Analog Signal) 2-7 1, 3, 6, 9, 11, 16 N.C. Not internally connected 11 14 V+ Positive Supply-Voltage Input—connected to substrate 12 15 VL Logic Supply-Voltage Input 13 17 GND Ground 14 18 V- Negative Supply Voltage 15, 10 19, 13 IN1, IN2 Digital Logic Inputs 16, 9, 5, 4 5, 7, 12, 20 NO_ Source (Analog Signal) Vg NO_ V+ COM_ V- Figure 1. Overvoltage Protection Using Blocking Diodes MAX301 PIN LCC MAX303 PIN DIP/SO MAX305 PIN DIP/SO

Page 7

M A X 3 0 1 /M A X 3 0 3 /M A X 3 0 5 6 _______________________________________________________________________________________ Precision, Dual, High-Speed Analog Switches 50% tOFF tr < 20ns tf < 20ns VO VO tON 0.9VO 0.9VO +3V 0V VCOM 0V -VANA LOGIC INPUT SWITCH INPUT SWITCH OUTPUT SWITCH INPUT LOGIC INPUT WAVEFORM IS INVERTED FOR SWITCHES THAT HAVE THE OPPOSITE LOGIC SENSE CONTROL +5V +15V V+ VO RL = 1000Ω CL = 35pF V- -15V REPEAT TEST FOR EACH SWITCH 0V GNDLOGIC INPUT SWITCH INPUT IN1 VCOM = +10V for tON VCOM = -10V for tOFF FOR LOAD CONDITIONS, SEE Electrical Characteristics. CL INCLUDES FIXTURE AND STRAY CAPACITANCE VO = VCOM RL RL = RON V+VL COM NC OR NO V- 50% VO1 VO2 0.9VO +3V 0V VCOM 0V VCOM LOGIC INPUT SWITCH OUTPUT SWITCH OUTPUT +5V VL +15V V+ NO V- -15V CL INCLUDES FIXTURE AND STRAY CAPACITANCE. LOGIC 0 INPUT. 0V GNDLOGIC INPUT VCOM_ = +10V VCOM_ = +10V 0V 0.9VO tD tD IN_ RL2 NC_ CL2 VO2 RL1 VO1 CL1 RL = 1000Ω CL = 35pF COM_ COM_ VGEN GND NC OR NO CL 10nF VO 0V -15V V- VL V+RGEN VO INX ON OFF ON ∆VO Q = (∆VO)(CL) COM +5V +15V Figure 2. Switching-Time Test Circuit Figure 3. Break-Before-Make Test Circuit Figure 4. Charge-Injection Test Circuit

Page 8

M A X 3 0 1 /M A X 3 0 3 /M A X 3 0 5 _______________________________________________________________________________________ 7 Precision, Dual, High-Speed Analog Switches IN_ 0V, 2.4V SIGNAL GENERATOR +15V +5V C C V+ VL ANALYZER CH A CH B NC OR NO RL 100Ω GND VCOM C -15V C = 5pF FREQUENCY TESTED 1 MHz SIGNAL GENERATOR AUTOMATIC SYNTHESIZER ANALYZER TRACKING SPECTRUM ANALYZER OFF ISOLATION = 20LOG VCOM VNC OR VNO V- IN2 0V, 2.4V SIGNAL GENERATOR +15V +5V C C V+ V ANALYZER CH A CH B NC OR NO RL 100Ω GND COM CV- -15V C = 5pF FREQUENCY TESTED 1 MHz SIGNAL GENERATOR AUTOMATIC SYNTHESIZER ANALYZER TRACKING SPECTRUM ANALYZER 0V, 2.4V IN_ NC OR NO 50ΩV+ COM VL CAPACITANCE METER NC OR NO COM GND CV- -15V IN_ 0V, 2.4V CC +15V V+ +5V V+ VL Figure 5. Off Isolation Figure 6. Crosstalk Test Circuit Figure 7. Channel On-Capacitance V- CAPACITANCE METER COM_ GND C -15V IN_ 0V, 2.4V CC +15V +5V V+ VL Figure 8. Channel Off-Capacitance

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