MAX339ESE+ Maxim Integrated Products, MAX339ESE+ Datasheet

IC MULTIPLEXER DUAL 4X1 16SOIC

MAX339ESE+

Manufacturer Part Number
MAX339ESE+
Description
IC MULTIPLEXER DUAL 4X1 16SOIC
Manufacturer
Maxim Integrated Products
Type
Analog Multiplexerr
Datasheet
1.MAX338CSE.pdf (13 pages)

Specifications of MAX339ESE+

Function
Multiplexer
Circuit
2 x 4:1
On-state Resistance
400 Ohm
Voltage Supply Source
Single, Dual Supply
Voltage - Supply, Single/dual (±)
4.5 V ~ 30 V, ±4.5 V ~ 20 V
Current - Supply
1µA
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-SOIC (0.154", 3.90mm Width)
Package
16SOIC N
Maximum On Resistance
650@12V Ohm
Maximum Propagation Delay Bus To Bus
500|500@±15V!@12V ns
Maximum High Level Output Current
30 mA
Multiplexer Architecture
4:1
Maximum Turn-on Time
500@±15V ns
Power Supply Type
Single|Dual
Number Of Channels
2 Channel
On Resistance (max)
650 Ohms at 12 V
Propagation Delay Time
500 ns at +/- 15 V
On Time (max)
500 ns at +/- 15 V
Off Time (max)
500 ns at +/- 15 V
Supply Voltage (max)
30 V
Supply Voltage (min)
4.5 V
Maximum Power Dissipation
696 mW
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Switch Current (typ)
0.29 mA at +/- 15 V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX338/MAX339 are monolithic, CMOS analog
multiplexers (muxes). The 8-channel MAX338 is
designed to connect one of eight inputs to a common
output by control of a 3-bit binary address. The dual, 4-
channel MAX339 is designed to connect one of four
inputs to a common output by control of a 2-bit binary
address. Both devices can be used as either a mux or
a demux. On-resistance is 400Ω max, and the devices
conduct current equally well in both directions.
These muxes feature extremely low off leakages (less
than 20pA at +25°C), and extremely low on-channel
leakages (less than 50pA at +25°C). The new design
offers guaranteed low charge injection (1.5pC typ) and
electrostatic discharge (ESD) protection greater than
2000V, per method 3015.7. These improved muxes are
pin-compatible upgrades for the industry-standard
DG508A and DG509A. For similar Maxim devices with
lower leakage and charge injection but higher on-resis-
tance, see the MAX328 and MAX329.
The MAX338/MAX339 operate from a single +4.5V to
+30V supply or from dual supplies of ±4.5V to ±20V.
All control inputs (whether address or enable) are TTL
compatible (+0.8V to +2.4V) over the full specified tem-
perature range and over the ±4.5V to ±18V supply
range. These parts are fabricated with Maxim’s 44V sili-
con-gate process.
________________________Applications
Data-Acquisition Systems
Test Equipment
Military Radios
Guidance and Control Systems
19-0272; Rev 3; 11/04
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
Pin Configurations/Functional Diagrams/Truth Tables
continued at end of data sheet.
_____________________Pin Configurations/Functional Diagrams/Truth Tables
TOP VIEW
Low-Leakage, CMOS Analog Multiplexers
________________________________________________________________ Maxim Integrated Products
General Description
COM
NO1
NO2
NO3
NO4
EN
A0
V-
1
2
3
4
5
6
7
8
Sample-and-Hold Circuits
Heads-Up Displays
Communications Systems
PBX, PABX
DIP/SO
MAX338
16
15
14
13
12
11
10
9
A1
A2
GND
V+
NO5
NO6
NO7
NO8
8-Channel/Dual 4-Channel,
♦ On-Resistance, <400Ω max
♦ Transition Time, <500ns
♦ On-Resistance Match, <10Ω
♦ NO-Off Leakage Current, <20pA at +25°C
♦ 1.5pC Charge Injection
♦ Single-Supply Operation (+4.5V to +30V)
♦ Plug-In Upgrade for Industry-Standard
♦ Rail-to-Rail Signal Handling
♦ TTL/CMOS-Logic Compatible
♦ ESD Protection >2000V, per Method 3015.7
____________________________Features
Ordering Information continued at end of data sheet.
*Contact factory for dice specifications.
**Contact factory for availability.
MAX338CPE
MAX338CSE
MAX338C/D
MAX338ETE
MAX338EPE
MAX338ESE
MAX338EJE
MAX338MJE
Bipolar-Supply Operation (±4.5V to ±20V)
DG508A/DG509A
PART
MAX338 8-CHANNEL SINGLE-ENDED MULTIPLEXER
NO1
NO2
NO3
NO4
NO5
NO6
NO7
NO8
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-55°C to +125°C
TEMP RANGE
A2
0°C to +70°C
0°C to +70°C
0°C to +70°C
V+
CMOS DECODE LOGIC
Ordering Information
A1
V-
A0
16 Plastic DIP
16 Narrow SO
Dice*
16 Thin QFN (5mm x 5mm)
16 Plastic DIP
16 Narrow SO
16 CERDIP
16 CERDIP**
PIN-PACKAGE
GND
EN
COM
1

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MAX339ESE+ Summary of contents

Page 1

... COM 8 DIP/SO Pin Configurations/Functional Diagrams/Truth Tables continued at end of data sheet. ________________________________________________________________ Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. 8-Channel/Dual 4-Channel, ____________________________Features ♦ On-Resistance, <400Ω max ♦ Transition Time, <500ns ♦ ...

Page 2

Low-Leakage, CMOS Analog Multiplexers ABSOLUTE MAXIMUM RATINGS Voltage Referenced ............................................................................-0.3V, 44V GND .........................................................................-0.3V, 25V Digital Inputs, NO, COM (Note 1)...........(V- - 2V) to (V+ + 2V) or 30mA (whichever occurs first) Continuous Current (any terminal) ...

Page 3

Low-Leakage, CMOS Analog Multiplexers ELECTRICAL CHARACTERISTICS—Dual Supplies (continued) (V+ = +15V -15V, GND = 0V PARAMETER SYMBOL INPUT Input Current with I AH Input Voltage High Input Current with I AL Input Voltage Low SUPPLY Power-Supply ...

Page 4

Low-Leakage, CMOS Analog Multiplexers ELECTRICAL CHARACTERISTICS—Single Supply (V+ = +12V 0V, GND = 0V +2.4V PARAMETER SYMBOL SWITCH Analog Signal Range V COM On-Resistance R ON DYNAMIC Transition Time ...

Page 5

Low-Leakage, CMOS Analog Multiplexers __________________________________________Typical Operating Characteristics (T = +25°C, unless otherwise noted.) A ON-RESISTANCE vs. V COM (DUAL SUPPLIES) 600 ±5V 500 400 ±10V ±15V 300 200 ±20V 100 0 -20 -15 - ...

Page 6

Low-Leakage, CMOS Analog Multiplexers ______________________________________________________________Pin Description PIN MAX338 MAX339 DIP/SO THIN QFN DIP/SO 1, 15, 16, 15, 14, 13 — — — 4–7 2–5 — — — 4– ...

Page 7

Low-Leakage, CMOS Analog Multiplexers ______________________________________________Test Circuits/Timing Diagrams +15V NO2-NO7 A0 MAX338 EN GND V- 50Ω -15V +15V NO1A-NO4A MAX339 EN GND V- 50Ω -15V Figure 2. Transition Time +15V MAX338 A1 ...

Page 8

Low-Leakage, CMOS Analog Multiplexers _________________________________Test Circuits/Timing Diagrams (continued) +15V V+ +2.4V EN NO1-NO8 A0 A1 MAX338 A2 GND V- 50Ω -15V Figure 4. Break-Before-Make Interval +15V CHANNEL A1 SELECT MAX338 A2 ...

Page 9

Low-Leakage, CMOS Analog Multiplexers _________________________________Test Circuits/Timing Diagrams (continued) +15V V IN NO1 50Ω S NO8 A0 A1 MAX338 A2 EN GND 10nF OFF ISOLATION = 20log Figure 6. Off-Isolation +15V V+ NO1 A2 CHANNEL A1 MAX338 SELECT ...

Page 10

Low-Leakage, CMOS Analog Multiplexers ________Pin Configurations/Functional Diagrams/Truth Tables (continued) TOP VIEW NO1A MAX339 4 NO2A 5 NO3A 6 NO4A 7 COMA 8 DIP/ SWITCH ...

Page 11

Low-Leakage, CMOS Analog Multiplexers Ordering Information (continued) PART TEMP RANGE PIN-PACKAGE MAX339CPE 0°C to +70°C 16 Plastic DIP MAX339CSE 0°C to +70°C 16 Narrow SO MAX339C/D 0°C to +70°C Dice* MAX339ETE -40°C to +85°C 16 Thin QFN (5mm x 5mm) ...

Page 12

Low-Leakage, CMOS Analog Multiplexers __________________________________________________________Chip Topographies MAX338 GND V- NO1 NO2 NO3 NO4 COM NO8 0.078" (1.98mm) TRANSISTOR COUNT: 224 SUBSTRATE IS INTERNALLY CONNECTED TO V+ Note: On Thin QFN packages connect exposed pad ...

Page 13

... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 13 © 2004 Maxim Integrated Products ...

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