PERICOM PS398CSE

PS398/PS399
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Precision 8-Ch, Diff. 4-Ch,
17V Analog Multiplexers
Features
Description
• Low On-Resistance (60-ohm typ.) Minimizes Distortion
and Error Voltages
• Low Glitching Reduces Step Errors and Improves
Settling Times. Charge Injection: <5pC
• Split-Supply Operation (+3V to +8V)
• Improved Second Sources for MAX398/MAX399
• On-Resistance Matching Between Channels: <6Ohm
• On-Resistance Flatness: <11-ohm
• Low Off-Channel Leakage,
INO(OFF) < 1nA @ +85oC, ICOM(ON), <2.5nA @ +85oC
• TTL/CMOS Logic Compatible
• Fast Switching Speed, tTRANS <250ns
• Break-Before-Make action eliminates momentary crosstalk
• Rail-to-Rail Analog Signal Range
• Low Power Consumption, <300µW
• Packaging (Pb-free & Green available):
- 16-pin SOIC (W)
The PS398/PS399 are improved high precision analog multiplexers.
The PS398, an 8-channel single-ended mux, selects one of eight
inputs to a common output as determined by a 3-bit address
A0-A2. An EN (enable) pin when low disables all switches, useful when stacking several devices. The PS399 is a 4-channel
differential multiplexer. It selects one of four differential inputs to
a common differential output as determined by a 2-bit address A0,
A1. An EN pin may be driven low to disable all switches.
These multiplexers operate with dual supplies from +3V to +8V.
Single-supply operation is possible from +3V to +15V.
With +5V power supplies, the PS398/PS399 guarantee <100-ohm
on-resistance. On-Resistance matching between channels is within
6-ohm. On-Resistance flatness is less than 11-ohm over the specified signal range.
Each switch conducts current equally well in either direction when
on. In the off state each switch blocks voltages up to the powersupply rails.
Both devices guarantee low leakage currents (<2.5nA at +85oC)
and fast switching speeds (tTRANS <250ns). Break-before-make
switching action protects against momentary crosstalk between
channels.
Applications
•
•
•
•
•
•
Data Acquisition Systems
Audio Switching and Routing
Test Equipment
PBX, PABX
Telecommunication Systems
Battery-Powered Systems
Block Diagrams and Pin Configurations
PS399
PS398
A0
1
EN
2
V-
16
16
A1
AO
1
15 A2
EN
2
3
14 GND
V-
3
NO1
4
13 V+
NO1A 4
13 NO1B
NO2
5
12 NO5
NO2A 5
12 NO2B
NO3 6
11 NO6
NO3A 6
11 NO3B
NO4 7
10 NO7
NO4A 7
10 NO4B
COM
8
Decoders/Drivers
9
COMA 8
NO8
1
Decoders/Drivers
A1
15 GND
14 V+
9
COMB
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Truth Tables
PS398
PS399
A2
A1
A0
EN
On Switch
X
X
X
0
None
0
0
0
1
1
0
0
1
1
2
0
1
0
1
0
1
1
1
0
1
A1
A0
EN
ON Switch
X
X
0
None
0
0
1
1
3
0
1
1
2
1
4
1
0
1
3
0
1
5
1
1
1
4
0
1
1
6
1
1
0
1
7
1
1
1
1
8
Logic “0”, VAL ≤ 0.8V
Logic “1”, VAH ≥ 2.4V
Absolute Maximum Ratings
Thermal Information
Voltages Referenced to V-
Continuous Power Dissipation
V+ ....................................................................... -0.3V to + 17V
SOIC (derate 8.7mW/ °C above +70°C) ........................... 650mW
GND .................................................................... -0.3V to + 17V
Storage Temperature ........................................ –65°C to +150°C
GND ........................................................... -0.3V to ( V+) + 0.3V
Lead Temperature (soldering, 10s) .................................. +300°C
VIN, VCOM, VNO (Note 1) ................... (V-) -2V to (V+) + 2V
or 30mA, whichever occurs first
Current (any terminal ) ......................................................... 30mA
Peak Current, COM, NO, NC
(pulsed at 1ms, 10% duty cycle) ..................................... 100mA
ESD per method 3015.7 .................................................. > 2000V
Note 1: Signals on NO, COM, or logic inputs exceeding V+ or V- are
clamped by internal diodes. Limit forward diode current to 30mA.
Caution: Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating
and operation of the device at these or any other conditions beyond those indicated in the operational sections of this specification is not implied.
2
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Electrical Specifications - Dual Supplies (V± = ±5V ± 10%, GND = 0V, VAH = VENH = 2.4V, VAL = VENL = 0.8V)
Parame te r
Symbol
Conditions
Te mp. (°C)
M in.(2)
Full
V-
Typ.(1) M ax.(2)
Units
Analog Switch
Analog Signal Range (3) VANALOG
On Resistance
RON
On- Resistance Match
Between Channels(4)
∆RON
On- Resistance
Flatness(5)
RFLAT(ON)
NO Off Leakage
Current(6)
COM- Off Leakage
Current(6)
V+ = 4.5V, V- = - 4.5V,
VCOM = ±3.5V
INO = 1mA,
INO(OFF)
ICOM(OFF)
25
VCOM or VNC = ±3.5V,
INO = 1mA,
V+ = 5V, V- = - 5V
INO
V+ = 5V, V- = - 5V,
= 1mA, VCOM = ±3V, 0V
V+ = 5.5V, V- = - 5.5V,
VCOM = ±4.5V,
VNO = ±4.5V
V+ = 5.5V, V- = - 5.5V
VCOM = ± 4.5V,
VNO = - /+4.5V
P S 398
P S 399
P S 398
COM On Leakage
Current(7)
ICOM(ON)
V+ = 5.5V, V- = - 5.5V
VCOM = ±4.5V
VNO = 4.5V
P S 399
V+
60
V
100
Full
125
25
6
Full
8
25
11
Full
14
25
- 0.1
0.1
Full
- 1.0
1.0
25
- 0.2
50
Full
- 2.5
100
25
- 0.1
50
Full
- 1.5
100
25
- 0.4
0.4
Full
-5
5
25
- 0.2
0.2
Full
- 2.5
2.5
Ohm
nA
Logic Input
Logic High Input
Voltage
VAH,
VENH
Logic Low Input
Voltage
VAL,
VENL
2.4
V
0.8
Full
Input Current with Input
Voltage High
IAH, IENH
Input Current with Input
Voltage Low
IAL, IENL
VA = VEN = 2.4V
- 0.1
0.1
µA
VA = VEN = 0.8V
3
- 0.1
0.1
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Electrical Specifications - Dual Supplies (V± = ±5V ± 10%, GND = 0V, VAH = VENH = 2.4V, VAL = VENL = 0.8V)
(continued)
Parame te r
Te mp(°C)
M in.(1)
Typ.(2) M ax.(1)
Symbol
Conditions
Transition Time
tTRANS
Figure 1
Break- Before- Make
Time Delay
tOPEN
Figure 3
Enable Turn- OnTime
tON(EN)
Figure 2
Enable Turn- Off Time
tOFF(EN)
Figure 2
Q
CL= 1nF, VS = 0V, RS = 0Ohm,
2.8
OIRR
VEN = 0V, RL= 1kOhm, f = 100kHz
- 101
XTALK
RL = 1kOhm, f = 100kHz, Figure 6
- 92
CIN
f =1MHz
2.5
CNO(OFF)
f =1MHz, VEN = VNO = 0V
Units
Dynamic
Charge Injection(3)
Off Isolation(7)
Crosstalk
Logic Input Capacitance
NO Off Capacitance
COM Off Capacitance
COM On Capacitance
CCOM(OFF)
CCOM(ON)
150
0
25
40
72
Full
55
Full
f =1MHz, VCOM = 0V
ns
250
25
f =1MHz,
VEN = VCOM =0V
150
150
200
25
5
pC
dB
3.6
P S 398
31
P S 399
14
P S 398
35
P S 399
20
pF
Supply
Power- Supply Range
Positive Supply Current
NegativeSupply Current
Ground Current
I+
I-
VEN = VA = 0V or V+,
V+ =5.5V, V- = - 5.5V
IGND
Full
±3
±8
-1
1
-1
1
-1
1
V
µA
Notes:
1. Algebraic convention, where the most negative value is a minimum and the most positive is a maximum, is used in this data sheet.
2. Typical values are for DESIGN AID ONLY, not guaranteed or subject to production testing.
3. Guaranteed by design.
4. ∆RON = RON max - RON min.
5. Flatness is defined as the difference between the maximum and minimum values of on-resistance measured.
6. Leakage parameters are 100% tested at maximum rated hot temperature and guaranteed by correlation at +25ºC.
7. Off Isolation = 20log10 VCOM / VNO. See Figure 5.
4
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Electrical Characteristics - Single 5V Supply
(V+ = + 5V ± 10%, V- = 0V, GND = 0V, VAH = VENH = +2.4, VAL = VENL = +0.8V)
Parame te r
Symbol
Te mp(°C) M in.(1)
Conditions
Typ.(2)
M ax.(1)
Units
V+
V
Switch
Analog Signal Range(3)
On Resistance
VCOM, VNO
RON
Full
INO = 1mA, VCOM = 3.5V,
V+ = 4.5V
RON Matching Between
Channels(4)
∆RON
INO = 1mA, VCOM = 3.5V,
V+ = 4.5V
On - Resistance Flatness
RFLAT
INO = 1mA, VCOM = 1.5V, 2.5V,
3.5V, V+ = 5V
INO(OFF)
VNO = 4.5V, VCOM = 0V,
V+ = 5.5V
NO- Off Leakage
Current(8)
COM- Off Leakage
Current(8)
COM- On Leakage
Current(8)
ICOM(OFF)
ICOM(ON)
VCOM = 4.5V, VNO
=0V,
V+ = 5.5V
VCOM = 4.5V, VNO
=4.5V,
V+ = 5.5V
P S 398
P S 399
P S 398
P S 399
0
25
100
225
Full
280
25
11
Full
13
25
18
Full
22
25
- 0.1
0.1
Full
- 1.0
1.0
25
- 0.2
50
Full
- 2.5
100
25
- 0.2
50
Full
- 1.5
100
25
- 0.4
0.4
Full
-5
5
25
- 0.2
0.2
Full
- 2.5
2.5
Ohm
nΑ
Digital Logic Input
Logic High Input Voltage
VAH, VENH
Logic Low Input Voltage
VAH, VENL
Input Current with Input
Voltage High
IAH, IENH
Input Current with Input
Voltage Low
IAH, IENL
2.4
0.8
VA= VEN = 2.4V
Full
- 0.1
V
0.1
µA
VA= VEN = 0.8V
- 0.1
0.1
3
15
- 1.0
1.0
- 1.0
1.0
- 1.0
1.0
Supply
Power- Supply Range
V+
Positive- Supply Current
I+
Negative- Supply Current
I-
Ground Current
IGND
VEN = V+ or 0V, VA = 0V,
V+ = 5.5V, V- = 0V
5
Full
PS8185F
V
µΑ
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Electrical Characteristics - Single 5V
(V+ = +5V ± 10%, V- = 0V, GND = 0V, VAH = VENH = +2.4, VAL = VENL= +0.8V (continued)
Parame te r
Symbol
Conditions
Te mp(°C)
M in.(1)
Typ.(2)
M ax.(1)
72
245
Units
Dynamic
Transition Time
tTRANS
Break- Before- Make Interval
tOPEN
Enable Turn- On Time
tON(EN)
Enable Turn- Off Time
tOFF(EN)
Charge Injection(3)
Q
VNO = 3V
10
25
36
110
Full
275
25
65
Full
CL = 1nF, VS = 0V, RS = 0Ohm
200
ns
125
200
25
2.8
5
pC
Electrical Characteristics - Single 3V Supply
(V+ = +3V ± 10%, V- = 0V, GND = 0V, VAH = VENH = +2.4, VAL = VENL = +0.8V)
Parame te r
Symbol
Te mp.(°C) M in.(1)
Conditions
Typ.(2)
M ax.(1)
Units
V+
V
Switch
Analog Signal Range(3)
VANALOG
Full
RON
INO = 1mA, VCOM = 1.5V,
V+ = 3V
Transition Time(3)
tTRANS
Figure 1, VIN = 2.4V
VNO1 = 1.5V, VNO8 = 0V
Enable Turn- OnTime(3)
tON(EN)
Figure 2, VINH = 2.4V
VINL = 0V, VNO1 = 1.5V
Enable Turn- Off Time(3)
tOFF(EN)
Q
On- Resistance
0
25
160
Full
375
425
Ohm
Dynamic
Charge Injection (3)
200
575
200
500
Figure 2, VINH = 2.4V
VINL = 0V, VNO1 = 1.5V
92
400
CL = 10nF, VS = 0V, RS = 0Ohm
2
5
25
ns
pC
Notes:
1. The algebraic convention, where the most negative value is a minimum and the most positive is a maximum,
is used in this data sheet.
2. Typical values are for DESIGN AID ONLY, not guaranteed or subject to production testing.
3. Guaranteed by design
4. ∆RΟΝ = RΟΝ max - RΟΝ min
5. Flatness is defined as the difference between the maximum and minimum value of on-resistance measured.
6. Leakage parameters are 100% tested at maximum rated hot temperature and guaranteed by correlation at +25ºC.
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
8. Leakage testing at single supply is guaranteed by testing with dual supplies.
6
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Test Circuits/Timing Diagrams
Figure 1. Transition Time
Figure 2. Enable Switching Time
7
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Figure 3. Break-Before-Make Interval
+5V
RS
VEN
VS
Channel
Select
NO
EN
A0
A1
A2
V+
Logic
Input
VEN
PS398
GND
COM
V-
VOUT
CL=1000pF
+3V
0FF
0FF
∆V
∆ OUT
VOUT
-5V
ON
0VX C
∆VOUT
∆
IS THE MEASURED VOLTAGE DUE TO CHARGE
TRANSFER WHEN THE CHANNEL TURNS OFF.
∆VOUT x C
∆
L
Figure 4. Charge Injection
Figure 5. Off Isolation
Figure 6. CrossTalk
8
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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+5V
A2
Channel
Select
A1
V+
N01
PS398
1MHz
Capacitance
Analyzer
N08
A0 GND EN V- COM
f =1MHz
-5V
Figure 8. NO/COM Capacitance
Applications
Overvoltage Protection
Where n = number of channels scanned: 8 for PS398,
4 for PS399. tTRANS is given on the specification table: 150 ns max.
Proper power-supply sequencing is recommended for all CMOS
devices. Do not exceed the absolute maximum ratings, because
stresses beyond the listed ratings may cause permanent damage to
the devices. Always sequence V+ on first, followed by V-, and then
logic inputs. If power-supply sequencing is not possible, add two
small signal diodes or two current limiting resistors in series with
the supply pins for overvoltage protection (Figure 9). Adding
diodes reduces the analog signal range, but low switch resistance
and low leakage characteristics are unaffected.
Settling time is the time needed for the output to stabilize within
the desired accuracy band of +1 LSB (least significant bit).
Other factors determining settling time are: signal source impedance, capacitive load at the output. Figure 10 illustrates the steady
state model. To figure out what the settling time due to the multiplexer is, we can assume that RS = 0Ω, and CL = 0. In real life, the
effects of RS and CL should be taken into account when performing these calculations.
Maximum Sampling Rate
From the sampling theorem, the sampling frequency needed to
properly recover the original signal should be more than twice
its maximum component frequency. In real applications,
sampling at three or four times the maximum signal frequency is
customary.
Positive Supply
V+
The maximum sampling rate of a multiplexer is determined by its
transition time (tTRANS), the number of channels being multiplexed,
and the settling time (tSETTLING) of the sampled signal at the output. The maximum sampling rate is:
NO
fS =
1
_______________
COM
(1)
n (tTRANS + tSETTLING)
Vg
V-
Figure 9. Overvoltage protection is accomplished using two
external blocking diodes or two current limiting resistors.
9
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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RON
V IN
RS
CCOM(ON)
CL
VS
Figure 10. Equivalent model of one multiplexer channel
The table below shows how many time constants (mτ) are
In equation (1) above, n = 8, tTRANS = 150ns, tSETTLING = 9τ,
needed to reach an accuracy of one LSB. τ = RON x CCOM(ON)
Bits
8
12
15
Accuracy (%)
0.25
0.012
0.0017
τ = 100ohm x 54pF
1
fS = _______________________ ,
m
6
9
11
8 [150ns + 9(100ohm x 54pF)]
or fS = 630kHz.
Assuming a x4 oversampling rate, the maximum sampling speed
for the PS398 would be 630÷4 = 157kHz.
Now, let’s calculate what the maximum sampling rate for the
PS398. Assume a 12-bit accuracy and room temperature
operation.
10
PS8185F
09/28/04
PS398/PS399
Precision
8-Ch,
Diff.
4-Ch,
17V
Analog
Multiplexers
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Packaging Mechanical: 16-pin SOIC (W)
16
.149
.157
3.78
3.99
.0099
.0196
0.25
x 45˚
0.50
1
.0075
.0098
0-8˚
.386
.393
9.80
10.00
0.41
1.27
.053
.068
.0155
.0260
0.393
0.660
REF
1.35
1.75
.013
.020
0.330
0.508
.016
.050
.2284
.2440
5.80
6.20
SEATING PLANE
.050
BSC
1.27
0.19
0.25
.0040 0.10
.0098 0.25
X.XX DENOTES DIMENSIONS
X.XX IN MILLIMETERS
Ordering Information
Ordering Code
PS398CSE
PS398CSEE
PS398ESE
PS398ESEE
PS399CSE
PS399CSEE
PS399ESE
PS399ESEE
Package Code
W
W
W
W
W
W
W
W
Package Type
16-pin SOIC
Pb-free & Green, 16-pin SOIC
16-pin SOIC
Pb-free & Green, 16-pin SOIC
16-pin SOIC
Pb-free & Green, 16-pin SOIC
16-pin SOIC
Pb-free & Green, 16-pin SOIC
Notes:
1. Thermal characteristics can be found on the company web site at www.pericom.com/packaging/
Pericom Semiconductor Corporation • 1-800-435-2336 • www.pericom.com
11
PS8185F
09/28/04