DG509AAK ,Monolithic CMOS Analog MultiplexersELECTRICAL CHARACTERISTICS
(V+ = 15V, V- = -15V, GND = 0V, TA = +25°C, unless otherwise noted.)
..
DG509AAK ,Monolithic CMOS Analog MultiplexersFeatures
. Improved Second Source
. Operate from 14.5V to tttty Supplies
. Symmetrical, Bidire ..
DG509ABK ,Monolithic CMOS Analog MultiplexersELECTRICAL CHARACTERISTICS(V+ = 15V, V- = -15V, GND = OV, T = +25°C, unless otherwise noted.)ADG508 ..
DG509ACJ ,Monolithic CMOS Analog MultiplexersFeatures Improved Second SourceMaxim’s DG508A and DG509A are monolithic CMOSanalog multiplexers (m ..
DG509ACWE ,Monolithic CMOS Analog MultiplexersFeatures Improved Second SourceMaxim’s DG508A and DG509A are monolithic CMOSanalog multiplexers (m ..
DG509ACWE+ ,Monolithic CMOS Analog MultiplexersFeatures Improved Second SourceMaxim’s DG508A and DG509A are monolithic CMOSanalog multiplexers (m ..
DS1004 ,5-Tap High Speed Silicon Delay LinePIN DESCRIPTIONTAP 1-5 - TAP Output NumberV - +5V SupplyCCGND - GroundIN - InputDESCRIPTIONThe DS10 ..
DS1004Z-2 ,5-Tap High-Speed Silicon Delay LineFEATURES PIN ASSIGNMENT All-silicon timing circuit1IN 8 VCC Five equally delayed clock phases per ..
DS1004Z-2 ,5-Tap High-Speed Silicon Delay LineFEATURES PIN ASSIGNMENT All-silicon timing circuit1IN 8 VCC Five equally delayed clock phases per ..
DS1004Z-2+ ,5-Tap High-Speed Silicon Delay LineDS10045-Tap High SpeedSilicon Delay Linewww.dalsemi.com
DS1004Z-4 ,5-Tap High-Speed Silicon Delay LinePIN DESCRIPTIONTAP 1-5 - TAP Output NumberV - +5 Volt SupplyCCGND - GroundIN - InputDESCRIPTIONThe ..
DS1004Z-5 ,5-Tap High-Speed Silicon Delay LineDS10045-Tap High SpeedSilicon Delay Linewww.dalsemi.com
DG509AAK
Monolithic CMOS Analog Multiplexers
19-0028; Rev 2; 2196
2fllAAl2ClLAyrl
Monolithic GMOS Analog Multiplexers
General Description
Maxim's DG508A and DGSOQA are monolithic CMOS
analog multiplexers (muxes): the DGSOBA is a single 8-
channel (1-ol-8) mux, and the DG509 is a differential 4-
channel (2-of-8) mux.
Both devices guarantee break-before-make switching.
Maxim guarantees these muxes will not latch up if the
power supplies are turned off with the input signals still
present. Maxim also guarantees continuous operation
when these devices are powered by supplies ranging
from i4.5V to tttN.
The DG508A/DG509A are plug-in upgrades for the in-
dustry-standard DG508A/DG509A, respectively.
Maxim's parts have lower on resistance, faster enable
switching times, and significantly lower leakage currents.
The DG508A/DG509A also consume significantly lower
power, making them ideal for portable equipment.
Applications
Control Systems
Data Logging Systems
Aircraft Heads-Up Displays
Data-Acquisition Systems
Signal Routing
__ Typical Operating Circuits
Features
t Improved Second Source
t Operate from t4.SV to 118V Supplies
. Symmetrical, Bidirectional Operation
t lo and Enable Inputs. TTL and
C S Compatible
t Latchup-Proof Construction
. Monolithic. Low-Powot CMOS Deslgn
Ordering Information
PART TEMP. RANGE pmmcmse
oesosACJ oocm not 16 Plastic DIP
DGSOBACWE 0°Cto +70°C 16 Wide so
DGSOBAC/D (YC to +70'C Dice'
DGSOBABK .20ch wet 16 canon:
DGSOBADJ .40% to +85°C 16 Plastic DIP
DGSOBADY MOR to +85'C 16 Narrow SO
DGSOBAEWE MON to o85'C 16 Wide so
DGSOBAAK -55°c to new 16 canon:
Ordering Information continued at end of data sheet.
'Contact factory for dice specifications,
Pin Configurations
"f Fl“
sl" (N) V-
-- 23 "tA3CIA'
ANALOG _ $4 0650M
INPUT S5 o -mux
OUTPUTS
( l $6 (Wk;
+15V il
A0 A1 A FN
l/r 08
-- BIN
NC --- Am
m m GM) (b-- NC.
I al--
i r157
ENABLE lN (MUX ONIOFF CONTROL)
8-CHANNEL SEQUENTIAL MUXIDEMUX
Typical Operallng Circuits confirmed at end of data sheet.
TOP VIEW v
A0 E El Al
EN E ii] A2
ll. E MAXIM E GNO
51E DG508A iil "
S E ii] S5
S3 E E 35
54E E sr
olE El S8
A0 1 Gl A1
EN IE ii] GND
V' E MAXIM El "
w]: 055m E 513
SUE ii] S28
SSAE E S38
SHE El $48
DAE El Oil
DIPIso
Maxim Integrated Products 1
& the latest literature: httpohvww.maxim-ic.com,
masaa/wowa
DG508A/DG509A
Monolithic (MODS Analog Multiplexers
ABSOLUTE MAXIMUM RATINGS
Voltage Referenced to V-
V+ .......................................... +44V
GND ............... . ......................... +25V
Digital Inputs, Vs and VD (Note 1) ......... -2V to (V+ + 2V)
or 20mA, whichever
occurs first
Current (any terminal, except s or D) ................ 30mA
Continuous Current, s or D ........................ 20mA
PealtCunert SorD (pulsedat1ms.10% dutycyclemax) .. dthM
Continuous Power Dissipation (T A = +70C)
Plastic DIP (derate 10.53mW/°C above o70'C) ...... 842mW
Narrow SO (derate 8.70mW/% above +70KO ....... 696mW
Wide SO (derate 9.52mW/°C above +70%) ......... 762mW
CERDIP (derate 10.00mW/°C above +70°C) ........ 800mw
Note 1:
current ratings.
Stresses i',tT,'', those listed under "Absolute Maxinum Ratings''may cause permanent damage
the device at these or any other conditions beyond those indicated in the operational seetians of the spertWattrwns is not rnplied Exposure to
operation 0
Operating Temperature Ranges:
DG5tLAC0lthNE ......................... DC to +70%
DGSO_ABK ............................ -20°C to +85°C
DG5tLAN/DYIEWE ..................... MOC to o85k)
DG50_AAK ........................... -55'C to +125°C
Storage Temperature Range ............... -65°C to +150°C
Lead Temperature (soldering, 10sec) ............... +300°c
Signals on S_. D-, or IN, exceeding V+ or V- will be clamped by internal diodes. Limit forward diode current to maximum
to the device. These am stmss ratings only, and funtttional
absolute maxinum ratings conditions Ioremndod periods may ttrect dome reliability.
ELECTRICAL CHARACTERISTICS
(V+ = IW, V- = -15V, GND = 0V, TA = o25'C, unless otherwise noted.)
DesosAA DGSOBADIEIBIC
PARAMETER SYMBOL CONDITIONS DesosAA DGti09AnlElBIC UNITS
MIN TYP MAX MIN TYP MAX
swrrcu
AnalotrSignal Range VANALOG -15 15 -15 15 V
Drain-Source tititi'lt' ea:h 1D=12VsA 170 300 170 350
On Resistance rDS(0N) Cle', g)v, VS l 10V n
(Note 4) - VAH = 2.4V g'==iltli, 130 300 130 350
Greatest Change in mg ON max - Lx QED min
gtfeggt, NDS(ON) mm" Wm ) 6 6 %
Between Channels -10)l f Vs 10V
Source_off Leaka 9 Vs = 10V, VD = -10)/ 0.002 0.5 0.002 1
Current g mm VEN = 0V Vs = -10v, vo = 10V 0.5 0.005 -1 Ah005 nA
. DesoaA VD = 10v, Vs = MOV 0.01 2 0.01 5
$211583 [mom VEN = 0V VD = -10v. Vs = 10v -2 .0.015 -5 0.015 nA
Current DGSOQA vo = 10v, vs = MOV 0.005 2 0.005 5
Va = -10v, vs = Ith/ -2 0.008 -5 0.008
D . o DG508A Sequence each l/stat) = vo = Ith/ 0.015 2 0.015 5
Lergjlgg: 1/ggg 'vtt=Irgv, Vstar) = VD = -10V 2 0.03 -5 003 nA
Current DGSOQA ( C) i9 ) V2; ii.2i'/ VS(a|l) = VD = 10V 0007 2 0.007 5
VS(aII) = VD = MOV -2 0.015 -5 0.015
2 MAXIM