MAX310EWN+ ,8-Channel, CMOS RF Video MultiplexerlVI/l X I [VI
CMOS RF/Video Multiplexers
MAX310MJE ,CMOS RF/Video MultiplexersGeneral Description
Maxim's MAX31O and MAX311 are CMOS monolithic
analog multiplexer/demultiple ..
MAX310MJE/883B ,8-Channel, CMOS RF Video MultiplexerApplications
Video Switching and Crosspoint Systems
Automatic Test Equipment
Medical Ultrasoun ..
MAX3110ECWI+G36 ,SPI/MICROWIRE-Compatible UART and ±15kV ESD-Protected RS-232 Transceivers with Internal Capacitorsfeatures an 8-word-deep receive FIFO that minimizes processor over-Ordering Informationhead and pro ..
MAX3110EENI+G36 ,SPI/MICROWIRE-Compatible UART and ±15kV ESD-Protected RS-232 Transceivers with Internal CapacitorsApplicationsPoint-of-Sale (POS) DevicesMAX3110EMAX3111EHandy-TerminalsSPIRS-232Telecom/Networking D ..
MAX3111ECWI ,SPI/MICROWIRE-Compatible UART and 【15kV ESDProtected RS-232 Transceivers with Internal CapacitorsApplicationsPoint-of-Sale (POS) Devices Typical Application CircuitHandy-TerminalsMAX3110ETelecom/N ..
MAX6365LKA31+ ,SOT23, Low-Power µP Supervisory Circuits with Battery Backup and Chip-Enable GatingELECTRICAL CHARACTERISTICS(V = +2.4V to +5.5V, V = +3.0V, CE IN = V , reset not asserted, T = -40°C ..
MAX6365LKA46+T ,SOT23, Low-Power µP Supervisory Circuits with Battery Backup and Chip-Enable Gatingfeatures.MAX6365Devices are available in both leaded and lead(Pb)-free packaging.GND 3 6 OUTSpecify ..
MAX6365PKA31+T ,SOT23, Low-Power µP Supervisory Circuits with Battery Backup and Chip-Enable GatingFeaturesThe MAX6365–MAX6368 supervisory circuits simplify ♦ Low +1.2V Operating Supply Voltage (V o ..
MAX6366LKA29+ ,SOT23, Low-Power µP Supervisory Circuits with Battery Backup and Chip-Enable GatingApplicationsM A X6 36 7 LK A_ _-T -40°C to +85°C 8 SOT23Critical µP/µC Power Portable/Battery-M A ..
MAX6366LKA46-T ,4.75 V, SOT23, low-power, mP supervisory circuit with battery backup and chip-enable gatingFeaturesThe MAX6365–MAX6368 supervisory circuits simplify Low +1.2V Operating Supply Voltage (V or ..
MAX6366PKA29+T ,SOT23, Low-Power µP Supervisory Circuits with Battery Backup and Chip-Enable GatingELECTRICAL CHARACTERISTICS(V = +2.4V to +5.5V, V = +3.0V, CE IN = V , reset not asserted, T = -40°C ..
MAX310CWN+-MAX310EWN+-MAX310MJE/883B-MAX311CPE+-MAX311CWN+-MAX311EWN+
8-Channel, CMOS RF Video Multiplexer
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CMOS RF/ Video Multiplexers
General Description
Maxim's MAX31O and MAX311 are CMOS monolithic
analog multiplexer/demuitiplexers designed for use
with signal frequencies ranging from DC through
video. The MAX310 is a 1-of-8 multiplexer while the
MAX311 is for 2-of-8 (4 channel differential)
applications.
A key feature of the MAX310/311 is extremely high
off isolation at high frequencies, The isolation of
each off channel to the output is guaranteed to be
-66dB at 5MHz. The input signal range is +12V to
-15)/ with i15V power supplies while power con-
sumption is typically 1.1 mW.
All control inputs are fully compatible with TTL and
CMOS logic. Decoding is in standard BCD format
and an Enable input is also provided to simplify
Features
-76dB Typical Off Isolation at 5MHz
-63dB Typical "All Channel Off" Isolation at 5MHz
. Phase Shift Match Between Channels, <1°
at 5MHz
. Break-Before-Make Switching
. Wide Supply Range, :t4.5V to :16.5V and
Single Supply
. Symmetrical, BI-directional Operation
. Latch-Up Proof Construction
Ordering Informa tion
cascading of devices. The MAX310 and MAX311 will F PART TEMP.RANGE PACKAGE
operate with nearly any power supply combination ' MAX31OC/D 0°Clo +70"C Dice
which totals less than 36V (V+ - V-) including single 0 I _
supply operation at +12V, +15V, and +28V with v- MAX31OCPE o Cto -70"C 16 Lead Plastic DIP
connected to GND. MAX31OCWN JC to - 700C 18 Lead Wide so
A ff . MAX310EPE 40''Cto +85'C 16 Lead Plastic DIP
. pp cations MAX310EWN 40"Cto 4351: 18 Lead Wide SO
Video Switching and Crosspoint Systems MAX310EJE -40'Cto ‘8an 16 Lead CERDIP
Automatic Test Equipment MAX310MJE - 55010 f 125'C 16 Lead CERDIP
Medical Ultrasound Phased Array Systems MAX311C/D DC to +70°c Dice
Data Logging of High Frequency Signals MAX311CPE Otto 67070 16 Lead Plastic DIP
Digital Signal Processing MAX311CWN Otto -7(YC 18 Lead Wide so
MAX311EPE - 4000 ' 850 16 Lead Plastic DIP
Pin Configuration MAX311EWN -40uCtto +85'C 18 Lead Wide so
MAX311EJE - 40tto +85°C 16 Lead CERDIP
Top View MAX311MJE 755C to 1 1250 16 Lead CERDIP
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MAXIM IS a registered trademark of Maxim Integrated Products.
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CMOS RF/Video Multiplexers
ABSOLUTE MAXIMUM RATINGS
Voltage referenced to V' Operating Temperature Range
V+ "'".-l.t...--r...r.. MAX3100. MAX3110 ......................... 0°C to +70°C
GND ................ MAX31OE, MAX311E ......... . -40''C to '85'C
Digital Inputs .................................... V' to V‘ MAX310M, MAX311M ..................... -55''C to +125°C
Input Current Power Dissipation (16-Pin packages)
S and COMMON OUT ...__FrFm.q.....r..t.g.t..... t-50mA CERDIP (derate10mW/°C above +75°C) ............ 750mW
All pins except S and COM, OUT ......... . t30mA Plastic DIP (derate 7.35mW/°C above +75''C) ........ 550mw
Lead Temperature +300°C Small Outline (derate 9mW/°C above 05°C) ........ 550mW
Storage Temperature .PlF_FP.P..FF.FF. -65''C to +150°C
Stresses listed under "Absolute Maximum Ratings" may be applied (ans at a nme) to dawces without resulting m permanent damage. These are stress
ratings only, and functional operation of the device ttt these or any other conditions above those indicated in the operational sections of the spscdications
15 not Implied. Exposure to absolule maximum ratings conditions for extended periods may affect device reliability.
ELECTRICAL CHARACTERISTICS
(Over Temperature V" = +15V, v- = -15V, GND = 0V unless otherwise indicated)
MAX310/311
PARAMETER- SYMBOL CONDITIONS MIN. TYP. MAX. UNITS
. W. V---t15V -15 +12
Analog Signal Range V+. V‘ = t5V -5 +2 V
VIN = t5V, low = 10mA
Channel ON Resistance RON TA = +25''C 150 250 fl
Over Temp. 300
ON Resistance Match ARON VIN = tSV. low = 10mA 6 %
Figure10.TA = +25°C 0.4 10
OFF Input Leakage Current laom Over Temp 3 100 nA
Figure11,TA = +25°C 0.8 10
8:533:81: ent Imam MAX310 Over Temp. 20 100 nA
9 u r MAX311 Over Temp. 10 50
Figure 12, TA = 425°C 1 10
Egghingj'nem IDmN, MAX310 Over Temp. 30 200 nA
g MAX311 OverTemp. 15 100
Input Low Threshold VAL V+/V- = t15V, iSV 0.8 V
Input High Threshold VAH v+/v- = :15v, :5V 2.4 v
Input Current (Logic) IA VA = 0V or 5V :10 pA
_ Figure 7; TA = +25°C 0.6 1.5
Access Time tAcc Over Temp. 2.0 us
Fi ure 8; T, - +25°C 0.3 1.0
Enable Delay ON or OFF 15.,me g ttver' Temp. 2.0 us
Break-Betore-Make Delay ION-topp Figure 9 30 100 ns
OFF Isolation, Single ' . - - -
Channel to OUT ISOsc Figure 3; TA - -25''C 66 76 dB
F Figure 4, 5, TA = +25°C
g',cs/2'tlrd)lj ISOAc MUX Disabled, EN = HhlN -63 dB
MUX Enabled, EN = +2.4V -58
Adjacent Channel Crosstalk ISOx Figure 6, TA = +25''C -72 dB
Channel Input Capacitance TA = +25°C, Vm = 10mVnws 10 MHz
OFF State CS(OFF] 5 pF
ON State Csevn 45
Channel Output Capacitance TA = +25°C:
OFF State cmom EN = HMV, MAX310 38
MAX311 20 pF
ON State Cmopp, EN = +2.4V, MAX31O 57
MAX311 40
Charge Injection 0 Figure 13, TA = +25°C 110 PC
Supply Current; V+ I+ - 75 200
V' l- EN, AO, A1, A2 - 0V or +5V 0,1 100 uA
Supply Voltage Range TA = +25°C :45 :165 V
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