DG506ACJ+ ,Monolithic CMOS Analog MultiplexersGeneral Description
Maxim's DGSOSA and DG507A are monolithic CMOS
analog multiplexers. The DG50 ..
DG506ACK ,Monolithic CMOS Analog MultiplexerslVl/J X IIVI
Monolithic CMOS Analog Multiplexers
DG506ACK ,Monolithic CMOS Analog MultiplexersFeatures
. Improved 2nd Source!
. Pin compatible with Harris, Siliconix, Intersil
. Operable wit ..
DG506ACK ,Monolithic CMOS Analog MultiplexersApplications
Control Systems
Data Logging Systems
Aircraft Heads Up Displays
Data Acquisiti ..
DG506ACWI ,Monolithic CMOS Analog MultiplexersGeneral Description
Maxim's DG506A and DG507A are monolithic CMOS
analog multiplexers. The DG50 ..
DG506ADN ,Monolithic CMOS Analog MultiplexersApplications
Control Systems
Data Logging Systems
Aircraft Heads Up Displays
Data Acquisition S ..
DS1000-150 ,5-Tap Silicon Delay LinePIN DESCRIPTIONTAP 1-TAP 5 - TAP Output NumberV - +5 VoltsCCGND - GroundNC - No ConnectionIN - Inpu ..
DS1000-175 ,5-Tap Silicon Delay LineFEATURES PIN ASSIGNMENT All-silicon time delayIN 1 14 VCC 5 taps equally spaced1IN 8 VCCNC 2 13 N ..
DS1000-200 ,5-Tap Silicon Delay LineELECTRICAL CHARACTERISTICS (0°C to 70°C; V = 5.0V ± 5%)CCPARAMETER SYM TEST MIN TYP MAX UNITS NOTES ..
DS1000-25 ,5-Tap Silicon Delay LineELECTRICAL CHARACTERISTICS (0°C to 70°C; V = 5.0V ± 5%)CCPARAMETER SYM TEST MIN TYP MAX UNITS NOTES ..
DS1000-25 ,5-Tap Silicon Delay LineELECTRICAL CHARACTERISTICS (0°C to 70°C; V = 5.0V ± 5%)CCPARAMETER SYM TEST MIN TYP MAX UNITS NOTES ..
DS1000-250 ,5-Tap Silicon Delay LinePIN DESCRIPTIONTAP 1-TAP 5 - TAP Output NumberV - +5 VoltsCCGND - GroundNC - No ConnectionIN - Inpu ..
DG506AAK/883B-DG506ACJ+-DG506ADN
Monolithic CMOS Analog Multiplexers
General Description
Maxim's DG506A and DG507A are monolithic CMOS
analog multiplexers. The DG506A is a single 16
channel (1 of 16) multiplexer, and the DG507A is a
differential 8 channel (2 of 16) multiplexer.
Both devices feature break-before-make switching.
Maxim guarantees that these multiplexers will not
latch-up if the power supplies are turned off with the
input signals still present as long as absolute maxi-
mum ratings are not violated. The multiplexers operate
over a wide range of power supplies from i4.5V
to i18V.
Compared to the original manufacturer's devices,
Maxim's DG506A and DG507A consume significantly
less power, making them ideal for portable equipment.
Maxim's DG506A and DG507A meet or exceed the
specifications of, and are drop-in replacements for,
Intersil's |H6116 and |H6216, Siliconix's DG506A and
DG507A, and Harris' Hl506 and HI507.
Applications
Control Systems
Data Logging Systems
Aircraft Heads Up Displays
Data Acquisition Systems
Signal Routing
Typical Operating Circuit
-15v -15v
V'GND v*
o--- "
o-- Sea ANALOG
Amg'i’OTG MAXIM OUTPUT
(OUTPUTS) DG507A (INPUTS)
o---- su,
*15V th, -o
o--- Set,
, Ao A1 A2 EN
v' __J
IN o- BHI th:
NC - AH!
0A --.NC
ro) rozGND
ENABLE
(MUX ON-OFF
CONTROL)
8 Channel Sequential Differential MUX/DEMUX
2AlA]gtli] Diet [MM]
Monolithic CMOS Analog Multiplexers
Features
00 00660
Improved 2nd Source!
Pin compatible with Harris, Siliconix, Intersil
Operable with A4.5V to K18V Supplies
Symmetrical, Bi-Directional Operation
Logic and Enable inputs, TTL and CMOS
Compatible
Latch-Up Proof Construction
Monolithic, Low-Power CMOS Design
Ordering Information
Su [Z xvmxuv: ca Se
PART TEMP. RANGE PACKAGE
DG506AAK -55''C to +125°C 28 Lead CERDIP
DG506ABK -2tPC to +85°C 28 Lead CERDIP
DG506AC/D 0°C to +70°C Dice
DG506ACJ 0°C to +70°C 28 Lead Plastic DIP
DG506ACK 0°C to +70°C 28 Lead CERDIP
DG506ACWI 0°C to +70°C 28 Lead Wide SO
DG507AAK -55''C to +125°C 28 Lead CERDIP
DG507ABK -20°C to +85°C 28 Lead CERDIP
DG507AC/D 0°C to +70°C Dice
DG507ACJ 0°C to +70°C 28 Lead Plastic DIP
DG507ACK 0°C to +70°C 28 Lead CERDIP
DG507ACWI 0°C to +70°C 28 Lead Wide so
Pin Configurations
V'E.V CED V'E. V 230,
NC E Eil v Dy LE Er) V'
NC LE E 55 NC LE CE Sa,
$16 LC CE s, thu, E E 57a
Ses E 24 Ss Sm E ca Sea
" 6 23 Ss San LE CE ss,
ssh Cr] lVl/le/VI E Sta
" CE DG506A JE Sa So E DG507A CEI ss,
511 E El $2 S:m E El Sa,
510 LE Ei] s, Sat, [E Ei] "
59 LE E] EN Su, LE E EN
GND LE CE Ao GND LE E Ao
NC LE El A, NC LE Ts) A1
A3 " Ts] A2 NC 14 Ts] A2
ll/I/JXI/l/I
Maxim Integrated Products 1
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim's website at .
BZOQW/VQOSDQ
DG506A/DG507A
Monolithic CMO§ Analog Multiplexers
ABSOLUTE MAXIMUM RATINGS
Vgltage Referenced to V‘
V ................................................ 44V
GND .............................................. 25V
Digital Inputs Vs, Vo (Note 1) ........ -2V to iv' + 2V) or
20mA, whichever occurs first.
Current, Any Terminal Except S or D ............. 30mA
Continuous Current, S or D ...................... 20mA
Peak Current, 8 or D
(Pulsed at 1msec, 10% duty cycle max) ......... 40mA
Storage Temperature (A & B Suffix) ...... -65°C to 150°C
(C Suffix) .......... -65''C to 125°C
Operating Temperature (A Suffix) ........ -55°C to 125°C
(B Suffix) ......... -25"C to 85°C
(C Suffix) ........... 0°C to 70°C
Power Dissipation (Package)'
28 Pin Ceramic DIP" .......................... 1200mW
28 Pin Plastic DIP'" ............................ 625mW
'All leads soldered or welded to PC board.
"Derate 16mW/°C above 75°C
"'Derate 8.3mW/°C above 75°C
Stresses listed under "Absolute Maximum Ratings" may be applied (one at a time) to devices without resulting in permanent damage. These are
stress ratings only, and functional operation oft
a device at these or any other conditions above those indicated in the operational sections of the
specifications is not implied. Exposure to absolute maximum ratings conditions for extended periods may affect device reliability.
ELECTRICAL CHARACTERISTICS (v+ = 15V, V' = -15v, GND = OV, TA = 25''C, unless otherwise indicated.)
DG506AA DG506AB/C
PARAMETER SYMBOL TEST CONDITIONS DG507AA DG50rAB/C UNITS
MIN TYP MAX MIN TYP MAX
Note 2)(Note 3) (Note 2)(Note 3)
SWITCH
Analog Signal Range VANALOG -15 15 -15 15 V
Sequence Each Vo = lov,
D . Switch On ls = ~200pA 270 400 270 450
rfrrt,ti'sugt mston) 1hu. = 0.8V, v - lov, n
o esistance Var, = 2.4V, ID,- “200 ',A 230 400 230 450
VEN = 2.4V s _ - p
Greatest Change in r MAX-r m
Drain-Source ON Ar Arroston) = (W 6 6 0/
Resistance Between DSion) r08an tt
Channels -10V s: Vs s: 10V
Source OFF Is tt Vs = 10V, Vo = -10V -1 0.002 1 -5 0.002
Leakage Current (o l Vs = -1ov, Vo = Ith/ -1 -o.005 1 -5 -0.005
v = 0.8V VD =10V,Vs = -10v -10 0.02 10 -20 0.02 20
Drain OFF DG506A i'd = 0.8V Vo = -10v Vs =10V -10 -003 10 -20 Ah03 20
Leakage low") ' . .
Current VD = IW, Vs = -10v -5 0.007 5 -10 0.007 10
DG507A
VD = MOV, Vs = 10V -5 -o.015 5 -10 -0.015 10 nA
Se uence Each Vs(an) = VD = 10V -10 0.03 10 -20 0.03 20
Channel ON DG506A gwitch On Vs ll = VD = -10v -10 -006 10 -20 -006 20
Leakage Ituonf VAL = O.8V, (a ) . .
Current VAH = 2.4V l/sian = VD =10V -5 0.015 5 -10 0.015 10
DG507A v _ 2 ii/
EN - . vsw.) = Vo = -10v -5 -0.03 5 -10 -0.03 10
Address Input Current, IAH VA = 2.4V -10 -0.002 -10 -0.002
Input Voltage High VA = 15V 0.006 10 0.006 10 A
Address Input Current, 'AL All VA = 0 VEN = 2.4V -10 -0.002 -10 -0.002
Input Voltage Low VEN = o -10 -0.002 -10 -0.002
2 IVl/J X I IVI