max396max397 precision 16-canneldal 8-cannel lo-oltae cmos … · 2016-02-05 · general...
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General DescriptionThe MAX396/MAX397 low-voltage, CMOS analog multiplexers (muxes) offer low on-resistance (100Ω max), which is matched to within 6Ω between switches and remains flat over the specified signal range (10Ω max). They also offer low leakage over temperature (input off-leakage current less than 1nA at +85°C) and fast switching speeds (transition time less than 250ns). The MAX396 is a 16-channel device, and the MAX397 is a dual, 8-channel device.The MAX396/MAX397 are fabricated with Maxim’s low-voltage silicon-gate process. Design improvements yield extremely low charge injection (5pC max) and guarantee electrostatic-discharge (ESD) protection greater than 2000V per Method 3015.7These muxes operate with a single +2.7V to +16V supply or with ±2.7V to ±8V dual supplies, while retaining CMOS-logic input compatibility and fast switching. The MAX396/MAX397 are pin compatible with the industry standard MAX306/MAX307, DG406/DG407, and DG506A/DG507A.
Benefits and Features Pin-Compatible with MAX306/MAX307,
DG406/DG407, DG506A/DG507A Single-Supply Operation (+2.7V to +16V)
Dual-Supply Operation (±2.7V to ±8V) Low On-Resistance (100Ω max) Guaranteed RON Match Between Channels (6Ω max) Guaranteed RON Flatness over Specified Signal Range
(10Ω max) Guaranteed Low Charge Injection (5pC max) Input Off-Leakage Current < 1nA at +85°C Output Off-Leakage Current < 2.5nA at +85°C Low Power Consumption < 10μW TTL/CMOS Compatible
19-0404; Rev. 2; 1/16
Automatic Test Equipment Communications Systems Audio Signal Routing Industrial Process Control
Sample-and-Hold Circuits Avionics Battery-Operated Equipment Low-Voltage Data Acquisition
Systems
Applications
CMOS DECODERS/DRIVERS
COM
NO1NO2NO3NO4NO5NO6NO7NO8NO9
NO10NO11NO12NO13NO14NO15NO16
A0
MAX396 16-CHANNEL SINGLE-ENDED MULTIPLEXER
A1 A2 A3 EN
V+ V- GND
A3 A1 A0 ENON
SWITCH
X0000000011111111
A2
X0000111100001111
X0011001100110011
X0101010101010101
01111111111111111
NONE12345678910111213141516
LOGIC “O” = VAL ≤ 0.8V, LOGIC “1” = VAH ≥ 2.4V
MAX396
Continued at end of data sheet.
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
Functional Diagrams/Truth Tables
(Voltage referenced to GND, unless otherwise noted.)V+ ..........................................................................-0.3V to +17VV- ..........................................................................+0.3V to -17VV+ to V- .................................................................-0.3V to +17VVoltage into Any Terminal (Note 1) ............ (V- - 2V) to (V+ + 2V)
or 30mA (whichever occurs first)Current into Any Terminal .................................................±30mAPeak Current into Any Terminal ........................................±50mAContinuous Power Dissipation (TA = +70°C)
Plastic DIP (derate 14.29mW/°C above +70°C) ........1143mW Wide SO (derate 12.50mW/°C above +70°C) ...........1000mW
SSOP (derate 9.52mW/°C above +70°C) ...................762mW PLCC (derate 10.53mW/°C above +70°C) ..................842mW CERDIP (derate 16.67mW/°C above +70°C) ............1333mW
Operating Temperature Ranges MAX39_C_I ........................................................0°C to +70°C MAX39_E_I..................................................... -40°C to +85°C MAX39_MJI .................................................. -55°C to +125°C
Storage Temperature Range ............................ -65°C to +150°CLead Temperature (soldering, 10sec) .............................+300°C
(V+ = +5V ±10%, V- = -5V ±10%, GND = 0V, VAH = VENH = 2.4V, VAL = VENL = 0.8V, TA = TMIN to TMAX, unless otherwise noted.)
PARAMETER SYMBOL CONDITIONS MIN TYP(Note 2) MAX UNITS
SWITCHAnalog Signal Range VCOM, VNO (Note 3) V- V+ V
Channel On-Resistance RON INO = 1mA, VCOM = ±3.5VTA = +25°C 60 100
ΩTA = TMIN to TMAX 125
On-Resistance MatchingBetween Channels (Note 4) ΔRON
INO = 1mA, VCOM = ±3.5V,V+ = 5V, V- = -5V
TA = +25°C 1.8 6Ω
TA = TMIN to TMAX 8On-Resistance Flatness(Note 5) RFLAT(ON)
INO = 1mA, VCOM = ±3V,V+ = 5V, V- = -5V
TA = +25°C 5 10Ω
TA = TMIN to TMAX 13
NO Off-Leakage Current(Note 6) INO(OFF)
VNO = ±4.5V, VCOM = 4.5V, V+ = 5.5V, V- = -5.5V
TA = +25°C -0.1 0.03 0.1nATA = TMIN
to TMAX
C, E -1.0 1.0M -10 10
COM Off-Leakage Current(Note 6) ICOM(OFF)
VCOM = ±4.5V,VNO = 4.5V,V+ = 5.5V, V- = -5.5V
MAX396TA = +25°C -0.2 0.05 0.2
nA
TA = TMINto TMAX
C, E -2.5 2.5M -40 40
VCOM = ±4.5V,VNO = 4.5V,V+ = 5.5V, V- = -5.5V
MAX397TA = +25°C -0.1 0.03 0.1TA = TMINto TMAX
C, E -2.5 2.5M -20 20
COM On-Leakage Current(Note 6) ICOM(ON)
VCOM = ±4.5V,VNO = 4.5V,
MAX396TA = +25°C -0.4 0.09 0.4
nA
TA = TMINto TMAX
C, E -5 5M -60 60
MAX397TA = +25°C -0.2 0.05 0.2TA = TMINto TMAX
C, E -2.5 2.5M -30 30
±
±
±
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Absolute Maximum Ratings
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.
Electrical Characteristics—Dual Supplies
Note 1: Signals on any terminal exceeding V+ or V- are clamped by internal diodes. Limit forward current to maximum current rating.
(V+ = +5V ±10%, V- = -5V ±10%, GND = 0V, VAH = VENH = 2.4V, VAL = VENL = 0.8V, TA = TMIN to TMAX, unless otherwise noted.)
PARAMETER SYMBOL CONDITIONS MIN TYP(Note 2) MAX UNITS
DIGITAL LOGIC INPUTLogic High Input Voltage VAH, VENH 2.4 VLogic Low Input Voltage VAL, VENL 0.8 VInput Current withInput Voltage High IAH, IENH VA = VEN = 2.4V -0.1 0.1 µA
Input Current withInput Voltage Low IAL, IENL VA = VEN = 0.8V -0.1 0.1 µA
SUPPLYPower-Supply Range ±3 ±8 V
Positive Supply Current I+ VEN = VA = 0V/V+, V+ = 5.5V, V- = -5.5V TA = +25°C -1 1 µA
Negative Supply Current I- VEN = VA = 0V/V+, V+ = 5.5V, V- = -5.5V -1 1 µA
Ground Current IGNDVEN = VA = 0V/V+,V+ = 5.5V, V- = -5.5V
TA = +25°C -1 1µA
TA = TMIN to TMAX -1 1DYNAMIC
Transition Time tTRANS Figure 2TA = +25°C 95 150
nsTA = TMIN to TMAX 250
Break-Before-Make Interval tOPEN Figure 4 TA = +25°C 5 70 ns
Enable Turn-On Time tON(EN) Figure 3TA = +25°C 100 150
nsTA = TMIN to TMAX 250
Enable Turn-Off Time tOFF(EN) Figure 3TA = +25°C 55 150
nsTA = TMIN to TMAX 200
Charge Injection (Note 3) VCTE CL = 100pF, VNO = 0V, Figure 5 TA = +25°C 2 5 pCOff-Isolation (Note 7) VISO VEN = 0V, RL = 1kΩ, f = 100kHz TA = +25°C -75 dBCrosstalk Between Channels VCT
VEN = 2.4V, f = 100kHz,VNO = 1Vp-p, RL = 1kΩ, Figure 7 TA = +25°C -92 dB
Logic Input Capacitance CIN f = 1MHz TA = +25°C 8 pFNO Off-Capacitance CNO(OFF) f = 1MHz, VEN = VCOM = 0V TA = +25°C 11 pF
COM Off-Capacitance CCOM(OFF)f = 1MHz,VEN = VCOM = 0V
MAX396TA = +25°C
80pF
MAX397 40
COM On-Capacitance CCOM(ON)f = 1MHz,VEN = VCOM = 0V
MAX396TA = +25°C
90pF
MAX397 68
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Electrical Characteristics —Dual Supplies (continued)
(V+ = +5V ±10%, V- = 0V, GND = 0V, VAH = VENH = 2.4V, VAL = VENL = 0.8V, TA = TMIN to TMAX, unless otherwise noted.)
PARAMETER SYMBOL CONDITIONS MIN TYP(Note 2) MAX UNITS
SWITCHAnalog Signal Range VCOM, VNO (Note 3) V- V+ V
On-Resistance RONINO = 1mA, VCOM = 3.5V, V+ = 4.5V
TA = +25°C 120 225Ω
TA = TMIN to TMAX 280On-Resistance MatchingBetween Channels (Note 4) ΔRON
INO = 1mA, VCOM = 3.5V,V+ = 4.5V
TA = +25°C 2 10Ω
TA = TMIN to TMAX 12
On-Resistance Flatness RFLATINO = 1mA, VCOM = 3V, 2V, 1V;V+ = 5V
TA = +25°C 5 16Ω
TA = TMIN to TMAX 20
NO Off-Leakage Current(Note 8) INO(OFF)
VNO = 4.5V, VCOM = 0V,V+ = 5.5V
TA = +25°C -0.1 0.03 0.1nATA = TMIN
to TMAX
C, E -1.0 1.0M -10 10
COM Off-Leakage Current(Note 8) ICOM(OFF)
VCOM = 4.5V,VNO = 0V,V+ = 5.5V
MAX396TA = +25°C -0.2 0.05 0.2
nA
TA = TMINto TMAX
C, E -2.5 2.5M -40 40
VCOM = 4.5V,VNO = 0V,V+ = 5.5V
MAX397TA = +25°C -0.2 0.02 0.2TA = TMINto TMAX
C, E -2.5 2.5M -20 20
COM On-Leakage Current(Note 6) ICOM(ON)
VCOM = 4.5V,VNO = 4.5V,V+ = 5.5V
MAX396TA = +25°C -0.4 0.09 0.4
nA
TA = TMINto TMAX
C, E -5 5M -60 60
MAX397TA = +25°C -0.2 0.04 0.2TA = TMINto TMAX
C, E -2.5 2.5M -30 30
DIGITAL LOGIC INPUTLogic High Input Voltage VAH, VENH 2.4 VLogic Low Input Voltage VAL, VENL 0.8 VInput Current withInput Voltage High IAH, IENH VA = VEN = 2.4V -0.1 0.001 0.1 µA
Input Current withInput Voltage Low IAL, IENL VA =0V, VEN = 0.8V -0.1 0.001 0.1 µA
SUPPLYPower-Supply Range 2.7 15 VPositive Supply Current I+ VEN = VA = 0V, V+; V+ = 5.5V; V- = 0V -1.0 0.06 1.0 µANegative Supply Current I- VEN = VA = 0V, V+; V+ = 5.5V; V- = 0V -1.0 0.08 1.0 µA
Ground Current IGNDVEN = V+, 0V; VA = 0V;V+ = 5.5V; V- = 0V
TA = +25°C -1.0 0.08 1.0µA
TA = TMIN to TMAX -1.0 1.0
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Electrical Characteristics—Single +5V Supply
(V+ = +3V ±10%, V- = 0V, GND = 0V, VAH = VENH = 2.4V, VAL = VENL = 0.8V, TA = TMIN to TMAX, unless otherwise noted.)
(V+ = +5V ±10%, V- = 0V, GND = 0V, VAH = VENH = 2.4V, VAL = VENL = 0.8V, TA = TMIN to TMAX, unless otherwise noted.)
Note 2: The algebraic convention, where the most negative value is a minimum and the most positive value a maximum, is used in this data sheet.
Note 3: Guaranteed by design.Note 4: ∆RON = RON(MAX) - RON(MIN).Note 5: Flatness is defined as the difference between the maximum and minimum value of on-resistance as measured over the
specified analog signal ranges, i.e., VNO = 3V to 0V and 0V to -3V.Note 6: Leakage parameters are 100% tested at maximum rated hot operating temperature, and guaranteed by correlation at +25°C.Note 7: Worst-case isolation is on channel 4 because of its proximity to the COM pin. Off-isolation = 20log VCOM/VNO, VCOM = output,
VNO = input to off switch.Note 8: Leakage testing at single supply is guaranteed by correlation testing with dual supplies.
PARAMETER SYMBOL CONDITIONS MIN TYP(Note 2) MAX UNITS
DYNAMIC
Transition Time (Note 3) tTRANS VNO = 3V, Figure 2TA = +25°C 105 245
nsTA = TMIN to TMAX 350
Break-Before-Make Interval tOPEN (Note 3) TA = +25°C 10 65 nsEnable Turn-On Time (Note 3) tON(EN)
TA = +25°C 125 200ns
TA = TMIN to TMAX 275Enable Turn-Off Time (Note 3) tOFF(EN)
TA = +25°C 100 125ns
TA = TMIN to TMAX 200
Charge Injection (Note 3) VCTECL = 100pF, VNO = 0V, Figure 5 TA = +25°C 1.5 5 pC
PARAMETER SYMBOL CONDITIONS MIN TYP(Note 2) MAX UNITS
SWITCHAnalog Signal Range VANALOG (Note 3) V- V+ V
On-Resistance RONINO = 1mA, VCOM = 1.5V, V+ = 3V
TA = +25°C 315 550Ω
TA = TMIN to TMAX 650DYNAMIC
Transition Time (Note 3) tTRANSFigure 2, VIN = 2.4V,VN01 = 1.5V, VN08 = 0V
TA = +25°C 230 575ns
TA = TMIN to TMAX 750Enable Turn-On Time (Note 3) tON(EN)
Figure 3, VINH = 2.4V,VINL = 0V, VN01 = 1.5V TA = +25°C 260 500 ns
Enable Turn-Off Time (Note 3) tOFF(EN)
Figure 3, VINH = 2.4V,VINL = 0V, VN01 = 1.5V TA = +25°C 135 400 ns
Charge Injection (Note 3) VCTECL = 100pF, VNO = 0V, Figure 5 TA = +25°C 1 5 pC
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Electrical Characteristics —Single +5V Supply (continued)
Electrical Characteristics—Single +3V Supply
(TA = +25°C, unless otherwise noted.)
130
50-5 -3 1
ON-RESISTANCE vs. VCOMAND TEMPERATURE
(DUAL SUPPLIES)
70
110
MAX3
96/7
TOC2
-1 3
90
120
60
100
80
5-4 0-2 2 4
V+ = 5V V- = -5V
TA = +125°C
TA = +85°C
TA = +25°C
TA = -55°C
VCOM (V)
R ON
(Ω)
300320
0 2
ON-RESISTANCE vs. VCOM(SINGLE SUPPLY)
140
220
MAX3
96/7
TOC3
4
180
260
280
240
120
200
160
51 3
V+ = 3V
V- = 0V
V+ = 5V
VCOM (V)
R ON
(Ω)
200
0 2
ON-RESISTANCE vs. VCOMAND TEMPERATURE
(SINGLE SUPPLY)
120
MAX3
96/7
TOC4
VCOM (V)
R ON
(Ω)
4
80
160
180
140
100
60
51 3
TA = +25°C
TA = -55°C
TA = +85°C
TA = +125°C
V+ = 5V V- = 0V
0.01
OFF-LEAKAGE vs.TEMPERATURE
100
MAX3
96/7
TOC5
TEMPERATURE (°C)
OFF-
LEAK
AGE
(nA)
1
0.1
10
52105- 25-25 0 7550 100
V+ = 5.5VV- = -5.5V
ICOM(OFF)
INO(OFF)
0.01
ON-LEAKAGE vs.TEMPERATURE
100
1000
MAX3
96/7
TOC6
TEMPERATURE (°C)
ON-L
EAKA
GE (n
A)
1
0.1
10
15205- 25-25 0 50 10075
V+ = 5.5VV- = -5.5V
ICOM(ON)
CHARGE INJECTION vs. VCOM
-5
5
MAX3
96/7
TOC7
VCOM (V)
Qj (p
C)
0
543210-1-2-3-4-5
V+ = 5VV- = -5V
V+ = 5VV- = 0V
110
30-5 -3 1
ON-RESISTANCE vs. VCOM(DUAL SUPPLIES)
50
90
MAX3
96/7
TOC1
VCOM (V)
R ON
(Ω)
-1 3
70
100
40
80
60
5-4 0-2 2 4
V± = ±5V
V± = ±3V
0.01
SUPPLY CURRENT vs.TEMPERATURE
1
MAX3
96/7
TOC7
TEMPERATURE (°C)
I+, I-
(nA)
0.1
1521007550250-25-50
V+ = 5V V- = -5V
I-
I+
VEN = VA = 0V, 5V
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
Maxim Integrated 6www.maximintegrated.com
Typical Operating Characteristics
*Analog signal inputs and outputs are names of convenience only; they are identical and interchangeable.
PINNAME FUNCTION
MAX396 MAX3971 1 V+ Positive Supply-Voltage Input
2, 3, 13 — N.C. No Internal Connection— 2 COMB Analog Signal B Output* (bidirectional)— 3, 13, 14 N.C. No Internal Connection
4–11 — NO16–NO9 Analog Signal Inputs* (bidirectional)— 4–11 NO8B–NO1B Analog Signal B Inputs* (bidirectional)12 12 GND Logic Ground
14–17 — A3–A0 Logic Address Inputs— 15, 16, 17 A2, A1, A0 Logic Address Inputs18 18 EN Logic Enable Input
19–26 — NO1–NO8 Analog Signal Inputs* (bidirectional)— 19–26 NO1A–NO8A Analog Signal A Inputs* (bidirectional)27 27 V- Negative Supply-Voltage Input28 — COM Analog Signal Output* (bidirectional)— 28 COMA Analog Signal A Output* (bidirectional)
12 13 14 15 16 17 18
1234 262728
19
20
21
22
23
24
25
NO1
NO2
NO3
NO4
NO5
NO6
NO7
NO9
NO10
NO11
NO12
NO13
NO14
NO15 5
6
7
8
9
10
11
NO16
N.C.
N.C.
V+ COM
V- NO8
GND
N.C. A3 A2 A1 A0 EN
N.C. = NO INTERNAL CONNECTION
PLCC
MAX396
28
27
26
25
24
23
22
21
20
19
18
17
16
15
1V+
2
3
4
5
6
7
8
9
10
11
12
13
14
COM
V-
NO8
NO7
NO6
NO5
A2
NO4
NO3
NO2
NO1
EN
A0
A1
A3
N.C.
GND
NO9
NO10
NO11
N.C. = NO INTERNAL CONNECTION
NO12
NO13
NO14
NO15
NO16
N.C.
N.C.
DIP/SO
TOP VIEW
MAX396
12 13 14 15 16 17 18
1234
N.C. = NO INTERNAL CONNECTION
262728
19
20
21
22
23
24
25
NO1A
NO2A
NO3A
NO4A
NO5A
NO6A
NO7A
NO1B
NO2B
NO3B
NO4B
NO5B
NO6B
NO7B 5
6
7
8
9
10
11
NO8B
N.C.
COMB
V+ COMA
V- NO8A
GND
N.C.
N.C. A2 A1 A0 EN
PLCC
MAX397
28
27
26
25
24
23
22
21
20
19
18
17
16
15
1V+
2
3
4
5
6
7
8
9
10
11
12
13
14
COMA
V-
NO8A
NO7A
NO6A
NO5A
A2
NO4A
NO3A
NO2A
NO1A
EN
A0
A1
N.C.
N.C.
GND
NO1B
NO2B
NO3B
NO4B
NO5B
NO6B
NO7B
NO8B
N.C.
COMB.
DIP/SO
TOP VIEW
MAX397
Pin Configurations
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Pin Description
Applications InformationOperation with Supply Voltages Other than ±5VUsing supply voltages less than ±5V reduces the analog signal range. The MAX396/MAX397 multiplexers (muxes) operate with ±3V to ±8V bipolar supplies or with a +3V to +15V single supply. Connect V- to GND when operating with a single supply. Both devices can also operate with unbalanced supplies, such as +10V and -5V. The Typical Operating Characteristics graphs show typical on-resistance with ±3V, ±5V, +3V, and +5V supplies.These muxes operate with a single supply as low as 1V, although on-resistance and switching times become extremely high. Performance is not guaranteed below 2.7V. This is useful information only because it assures proper switch state while power supplies ramp up or down slowly.
Overvoltage ProtectionProper power-supply sequencing is recommended for all CMOS devices. Do not exceed the absolute maximum rat-ings, because stresses beyond the listed ratings can cause permanent damage to the devices. Always sequence V+ on first, then V-, followed by the logic inputs, NO, or COM. If power-supply sequencing is not possible, add two small-signal diodes (D1, D2) in series with supply pins for over-voltage protection (Figure 1). Adding diodes reduces the analog-signal range to one diode drop below V+ and one diode drop above V-, but does not affect the devices’ low switch resistance and low leakage characteristics. Device operation is unchanged, and the difference between V+ and V- should not exceed 17V. These protection diodes are not recommended when using a single supply.
Figure 1. Overvoltage Protection Using External Blocking Diodes
COM
V-
V+
NO
*INTERNAL PROTECTION DIODES
D2
D1
-5V
+5V
*
*
*
*
MAX396MAX397
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Figure 2. Transition Time
Figure 3. Enable Switching Time
50%
tTRANS
tR < 20nstF < 20ns+3V
0V
VNO1
0V
VNO8
LOGICINPUTVEN
SWITCHOUTPUTVOUT
+5V
VOUT
-5V
GND
V+
A1
V-
A2
A0
EN
NO1
NO2-NO15
NO16
COM
+3V
+2.4V-3V
300Ω35pF
+5V
VOUT
-5V
GND
V+
A0
A2
V-
A3
A1
EN
NO1B
NO1A-NO8A,COMA
NO8B
COMB
+3V
300Ω 35pF
90%
90%
tTRANSON
-3V
VEN
+2.4V
VEN
MAX397
MAX396
50%
tOFF(EN)
+3V
0V
0V
VOUT
+5V
VOUT
-5V
GND
V+
A1
V-
A0
A2
EN NO1
NO2-NO16
COM
+3V
50Ω1k
35pFA3
90%
10%
tON(EN)+5V
VOUT
-5V
GND
V+
A1
V-
A0
EN NO1B
NO1A-NO8A,NO2B-NO8B,
COMA
COMB
+3V
50Ω1k
35pFA2
MAX397
MAX396
VEN
VEN
LOGICINPUTVEN
SWITCHOUTPUTVOUT
tR < 20nstF < 20ns
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Test Circuits/Timing Diagrams
Figure 4. Break-Before-Make Interval
Figure 5. Charge Injection (VCTE)
50%
tOPEN
tR < 20nstF < 20ns
VOUT
+3V
0V
LOGICINPUT
SWITCHOUTPUT
+5V
VOUT
-5V
GND
V+
A0
V-
A2
A3
EN
NO1-NO16
COM
+3V
50Ω 300Ω35pF
A1
80%
+2.4V
0V
MAX396
∆VOUT
+3V
0V
LOGICINPUT
+5V
VOUT
-5V
GND
V+
A1
V-
A0
A2A3
EN
COM
CL = 100pFVOUT
NO1-N016
CHANNELSELECT
RS
VS
ON FFOFFO
∆VOUT IS THE MEASURED VOLTAGE DUE TO CHARGE TRANSFERERROR Q WHEN THE CHANNEL TURNS OFF.
VCTE = CL = ∆VOUT
MAX396
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
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Test Circuits/Timing Diagrams (continued)
Figure 6. Off-Isolation (VISO)
Figure 8. NO/COM Capacitance
Figure 7. Crosstalk (VCT)
+5V
VOUT
-5V
GND
V+
A2
V-
A0
A3
NO16
COM
NO1
RS = 50Ω
VIN
EN
10nF
RL = 1k
OFF-ISOLATION = 20logVOUTVIN
10nF
A1
NOTE: SIMILAR CONNECTION APPLIES FOR MAX397.
MAX396
+5V
-5V
GND
V+
A2
V-
A3
A1
A0
NO16CHANNEL
SELECT
NO1
COMEN
IMPEDANCEANALYZER
f = 1MHz
METER
NOTE: SIMILAR CONNECTION APPLIES FOR MAX397.
MAX396
+5V
-5V
GND
V+
A2
V-
A0
A3
NO16
COM
NO2
VOUT
EN
10nF
RL = 1k
CROSSTALK = 20log
10nF
A1
NO1
R = 1kΩ
NOTE: SIMILAR CONNECTION APPLIES FOR MAX397.
VOUTVIN
MAX396
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
www.maximintegrated.com Maxim Integrated 11
Test Circuits/Timing Diagrams (continued)
0.156"(3.96mm)
0.098"(2.49mm)
GND A3 A2 A1 A0
NO8
NO7
NO6
NO5
NO4
NO3
NO2
NO1
EN
N.C.V+
COM V-
NO16
NO15
NO14
NO13
NO12
NO11
NO10
NO9
TRANSISTOR COUNT: 360SUBSTRATE CONNECTED TO V+
0.156"(3.96mm)
0.098"(2.49mm)
GND N.C. A2 A1 A0
NO8A
NO7A
NO6A
NO5A
NO4A
NO3A
NO2A
NO1A
EN
COMBV+
COMA V-
NO8B
NO7B
NO6B
NO5B
NO4B
NO3B
NO2B
NO1B
TRANSISTOR COUNT: 360SUBSTRATE CONNECTED TO V+
MAX396 MAX397
CMOS DECODERS/DRIVERS
COMA
NO1ANO2ANO3ANO4ANO5ANO6ANO7ANO8ANO1BNO2BNO3BNO4BNO5BNO6BNO7BNO8B
MAX397 8-CHANNEL DIFFERENTIAL MULTIPLEXER
A0 A1 A2 EN
V+ V- GND
COMB
A2 A1 A0 ENON
SWITCH
X00001111
X00110011
X01010101
011111111
NONE12345678
LOGIC “O” = VAL ≤ 0.8V, LOGIC “1” = VAH ≥ 2.4V
MAX397
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
www.maximintegrated.com Maxim Integrated 12
Chip Topographies
Functional Diagrams/Truth Tables (continued)
*Contact factory for dice specifications. **Contact factory for package availability.
PART TEMP. RANGE PIN-PACKAGEMAX396CPI 0°C to +70°C 28 Plastic DIPMAX396CWI 0°C to +70°C 28 Wide SOMAX396CAI 0°C to +70°C 28 SSOPMAX396CQI 0°C to +70°C 28 PLCC**MAX396C/D 0°C to +70°C Dice*MAX396EPI -40°C to +85°C 28 Plastic DIPMAX396EWI -40°C to +85°C 28 Wide SOMAX396EQI -40°C to +85°C 28 PLCC**MAX396MJI -55°C to +125°C 28 CERDIP**MAX397CPI 0°C to +70°C 28 Plastic DIPMAX397CWI 0°C to +70°C 28 Wide SOMAX397CAI 0°C to +70°C 28 SSOPMAX397CQI 0°C to +70°C 28 PLCC**MAX397C/D 0°C to +70°C Dice*MAX397EPI -40°C to +85°C 28 Plastic DIPMAX397EWI -40°C to +85°C 28 Wide SOMAX397EQI -40°C to +85°C 28 PLCC**MAX397MJI -55°C to +125°C 28 CERDIP**
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
www.maximintegrated.com Maxim Integrated 13
Ordering Information
REVISIONNUMBER
REVISION DATE
DESCRIPTIONPAGES
CHANGED
2 1/16 Fixed typos, updated template 1–14
Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. The parametric values (min and max limits) shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.
Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.
MAX396/MAX397 Precision, 16-Channel/Dual 8-Channel,Low-Voltage, CMOS Analog Multiplexers
© 2016 Maxim Integrated Products, Inc. 14
Revision History
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated’s website at www.maximintegrated.com.