PI3CH360
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3-Channel 2:1 Mux/DeMux, Enable Low 1.8V/2.5V/3.3V,
High-Bandwidth, Hot Plug
Features
Description
Near-Zero propagation delay
5-ohm switches connect inputs to outputs
High signal passing bandwidth (500 MHz)
Beyond Rail-to-Rail switching
- 0 to 5V switching with 3.3V power supply
- 0 to 3.3V switching with 2.5V power supply
5V I/O tolerant with supply in OFF and ON state
1.8V, 2.5V and 3.3V supply voltage operation
Hot Insertion Capable
Industrial Operating Temperature: –40ºC to +85ºC
8kV ESD Protection (human body model)
Latch-up Performance: >200mA per JESD17
Packaging (Pb-free & Green available):
-16-pin 173-mil wide plastic TSSOP (L)
The PI3CH360 is a 3-channel, 2:1 Multiplexer/
Demultiplexer with 3-state outputs. The switch
introduces no additional ground bounce noise or
propagation delay.
The PI3CH360 device is very useful in switching
signals that have high bandwidth (500 MHz).
Pin Description
Pin Configuration
Pin No
1
Pin Name
S
Description
Select Inputs
2, 3, 7
4, 5, 6
NC
YA, YB, YC
Not connected
Data Outputs
8
GND
Ground
9, 10, 11,
12, 13, 14
IC1, IB1, IA1,
IC0, IB0, IA0
Data Inputs
1111111
15
Enable
EN
VCC
16
Power
Truth Table(1)
EN
S
YA
YB
YC
Function
H
X
Hi-Z
Hi-Z
Hi-Z
Disable
L
L
IA0
IB0
IC0
S=0
L
H
IA1
IB1
IC1
S=1
Note:
1. H=High Voltage Level
L=Low Voltage Level
Block Diagram
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PI3CH360
3-Channel 2:1 Mux/DeMux, Enable Low
1.8V/2.5V/3.3V, High-Bandwidth, Hot Plug
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Maximum Ratings
Storage Temperature ................................................................................... -65oC to +150oC
Ambient Temperature with Power Applied........................................–40°C to +85°C
Supply Voltage to Ground Potential ............................................................-0.5V to + 4.6V
DC Input Voltage ............................................................................................-0.5V to + 6.0V
DC Output Current .......................................................................................... 120mA
Power Dissipation .............................................................................................................. 0.5W
Note:
Stresses greater than those listed under MAXIMUM
RATINGS may cause permanent damage to the
device. This is a stress rating only and functional
operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure
to absolute maximum rating conditions for extended
periods may affect reliability.
DC Electrical Characteristics
3.3V supply (Over operating range, TA = -40 ~ +85ºC, VCC=3.3V±10%, unless otherwise noted)
Symbol
Test Conditions(1)
Description
Min
Typ(2)
Max
Unit
VIH
Control Input HIGH Voltage
Guaranteed Logic HIGH Level
2.0
-
-
V
VIL
Control Input LOW Voltage
Guaranteed Logic LOW Level
-0.5
-
0.8
V
VIK
Clamp Diode Voltage
VCC = Min., IIN = -18mA
-
-1.3
-1.8
V
IIH
Input HIGH Current
VCC = Max., VIN = VCC
-
-
±1
μA
IIL
Input Low Current
VCC = Max., VIN = GND
-
-
±1
μA
0 ≤ Y, In ≤ VCC
VCC = Min., VIN = 0.0V
ION = -48mA or -64mA
VCC = Min., VIN = 3.6V
ION = -15mA
-
-
±1
μA
-
4
6
-
5
8
IOZH
High-Impedance Current
RON
Switch On-Resistance(4)
(3)
Ω
Notes:
1. For Max. or Min. conditions, use appropriate value specified under Electrical Characteristics for the applicable device type.
2. Typical values are at VCC = 3.3V, TA = 25°C ambient and maximum loading.
3. Not more than one output should be shorted at one time. Duration of the test should not exceed one second.
4. Measured by the voltage drop between Y and In pin at indicated current through the switch. ON resistance is determined by the lower of
the voltages on the two (Y, In) pins.
2.5V supply (Over operating range, TA = -40 ~ +85ºC, VCC=2.5V±10%, unless otherwise noted)
Symbol
Description
Test Conditions(1)
Min
Typ(2)
Max
Unit
VIH
Control Input HIGH Voltage
Guaranteed Logic HIGH Level
1.8
-
VCC+0.3
V
VIL
Control Input LOW Voltage
Guaranteed Logic LOW Level
-0.3
-
0.8
V
VIK
Clamp Diode Voltage
VCC = Max., IIN = -6mA
-
-0.7
-1.8
V
IIH
Input HIGH Current
VCC = Max., VIN = VCC
-
-
±1
μA
IIL
Input Low Current
VCC = Max., VIN = GND
-
-
±1
μA
-
-
±1
μA
-
4
8
-
7
14
IOZH
High-Impedance Current(3)
RON
Switch On-Resistance(4)
0 ≤ Y, In ≤ VCC
VCC = Min., VIN = 0.0V
ION = -48mA
VCC = Min., VIN = 2.25V
ION = -15mA
Ω
Notes:
1. For Max. or Min. conditions, use appropriate value specified under Electrical Characteristics for the applicable device type.
2. Typical values are at VCC = 2.5V, TA = 25°C ambient and maximum loading.
3. Not more than one output should be shorted at one time. Duration of the test should not exceed one second.
4. Measured by the voltage drop between Y and In pin at indicated current through the switch. ON resistance is determined by the lower of
the voltages on the two (Y, In) pins.
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3-Channel 2:1 Mux/DeMux, Enable Low
1.8V/2.5V/3.3V, High-Bandwidth, Hot Plug
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1.8V supply (Over operating range, TA = -40 ~ +85ºC, VCC=1.8V±10%, unless otherwise noted)
Symbol
Test Conditions(1)
Description
Min
Typ(2)
Max
Unit
VIH
Control Input HIGH Voltage
Guaranteed Logic HIGH Level
1.2
-
VCC+0.3
V
VIL
Control Input LOW Voltage
Guaranteed Logic LOW Level
-0.3
-
0.6
V
VIK
Clamp Diode Voltage
VCC = Min., IIN = -18mA
-
-0.7
-1.8
V
IIH
Input HIGH Current
VCC = Max., VIN = VCC
-
-
±1
μA
IIL
Input Low Current
VCC = Max., VIN = GND
-
-
±1
μA
0 ≤ Y, In ≤ VCC
VCC = Min., VIN = 0.0V
ION = -48mA
VCC = Min., VIN = 1.6V
ION = -15mA
-
-
±1
μA
-
4
8
-
10
25
IOZH
High-Impedance Current(3)
RON
Switch On-Resistance(4)
Ω
Notes:
1. For Max. or Min. conditions, use appropriate value specified under Electrical Characteristics for the applicable device type.
2. Typical values are at VCC = 1.8V, TA = 25°C ambient and maximum loading.
3. Not more than one output should be shorted at one time. Duration of the test should not exceed one second.
4. Measured by the voltage drop between Y and In pin at indicated current through the switch. ON resistance is determined by the lower of
the voltages on the two (Y, In) pins.
Capacitance (TA = 25ºC, f=1MHz)
Symbol(1)
CIN
Description
Input Capacitance
Unit
3.0
COFF(IN)
In Capacitance, Switch Off
COFF(Y)
Y Capacitance, Switch Off
CON
Typ(2)
Test Conditions
3.5
VIN = 0V
pF
7.0
Y/In Capacitance, Switch On
10.0
Note:
1. These parameters are determined by device characterization but are not production tested
Power Supply Characteristics
Test Conditions(1)
Symbol
Description
ICC
Quiescent Power Supply Current
VCC = 3.6V, VIN = GND or VCC
Min
Typ(2)
-
0.2
Max
Unit
0.5
mA
Note:
1. For Max. or Min. conditions, use appropriate value specified under Electrical Characteristics for the applicable device.
2. Typical values are at +25°C ambient.
Dynamic Electrical Characteristics
(Over Operating Range, TA = -40 ~ +85ºC, VCC=3.3V±10%)
Symbol
Description
XTALK
Crosstalk
OIRR
BW
Test Conditions
Min
Typ
Max
See test Diagram
-
-60
-
Off-Isolation
See test Diagram
-
-60
-
-3dB Bandwidth
See test Diagram
-
500
-
Unit
dB
MHz
Switch Characteristics
Over 3.3V Operating Range
Symbol
tPLH, tPHL
Test Conditions(1)
Description
Propagation Delay
(2, 3)
Y to In, In to Y
Min
Typ
Max
See test Diagram
-
-
0.3
tPZH, tPZL
Enable Time S or EN to Y or In
See test Diagram
1.5
-
9.0
tPHZ, tPLZ
Disable Time S or EN to Y or In
See test Diagram
1.5
-
9.0
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Unit
ns
08/05/15
PI3CH360
3-Channel 2:1 Mux/DeMux, Enable Low
1.8V/2.5V/3.3V, High-Bandwidth, Hot Plug
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Note:
1. See test circuit and waveforms.
2. This parameter is guaranteed but not tested on Propagation Delays.
3. The switch contributes no propagation delay other than the RC delay of the On-Resistance of the switch and the load capacitance. The
time constant for the switch alone is of the order of 0.30ns for 10pF load. Since this time constant is much smaller than the rise/fall
times of typical driving signals, it adds very little propagation delay to the system. Propagation delay of the switch when used in a
system is determined by the driving circuit on the driving side of the switch and its interaction with the load on the driven side.
Over 2.5V Operating Range
Symbol
Test Conditions(1)
Description
tPLH, tPHL
Propagation Delay
(2, 3)
Y to In, In to Y
Min
Typ
Max
See test Diagram
-
-
0.3
tPZH, tPZL
Enable Time S or EN to Y or In
See test Diagram
1.5
-
15.0
tPHZ, tPLZ
Disable Time S or EN to Y or In
See test Diagram
1.5
-
12.0
Unit
ns
Note:
1. See test circuit and waveforms.
2. This parameter is guaranteed but not tested on Propagation Delays.
3. The switch contributes no propagation delay other than the RC delay of the On-Resistance of the switch and the load capacitance. The
time constant for the switch alone is of the order of 0.30ns for 10pF load. Since this time constant is much smaller than the rise/fall
times of typical driving signals, it adds very little propagation delay to the system. Propagation delay of the switch when used in a
system is determined by the driving circuit on the driving side of the switch and its interaction with the load on the driven side.
Over 1.8V Operating Range
Symbol
Test Conditions(1)
Description
tPLH, tPHL
Propagation Delay
(2, 3)
Y to In, In to Y
Min
Typ
Max
See test Diagram
-
-
0.3
tPZH, tPZL
Enable Time S or EN to Y or In
See test Diagram
1.5
-
25.0
tPHZ, tPLZ
Disable Time S or EN to Y or In
See test Diagram
1.5
-
12.0
Unit
ns
Note:
1. See test circuit and waveforms.
2. This parameter is guaranteed but not tested on Propagation Delays.
3. The switch contributes no propagation delay other than the RC delay of the On-Resistance of the switch and the load capacitance. The
time constant for the switch alone is of the order of 0.30ns for 10pF load. Since this time constant is much smaller than the rise/fall
times of typical driving signals, it adds very little propagation delay to the system. Propagation delay of the switch when used in a
system is determined by the driving circuit on the driving side of the switch and its interaction with the load on the driven side.
Test Circuit for Electrical Characteristics
6.0V
VCC
200Ω
Pulse
Generator
VIN
VOUT
D.U.T
RT
Notes:
1.
2.
3.
4.
10pF
CL
200Ω
CL = Load capacitance: includes jig and probe capacitance.
RT = Termination resistance: should be equal to ZOUT of the Pulse Generator
All input impulses are supplied by generators having the following characteristics: PRR ≤ 10 MHz, ZO = 50-ohm, tR ≤ 2.5ns, tF ≤
2.5ns.
The outputs are measured one at a time with one transition per measurement.
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PI3CH360
3-Channel 2:1 Mux/DeMux, Enable Low
1.8V/2.5V/3.3V, High-Bandwidth, Hot Plug
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Switch Positions
Test
Switch
tPLZ, tPZL
6.0V
tPHZ, tPZH
GND
Prop Delay
Open
Test Circuit for Dynamic Electrical Characteristics
HP4195A
S1
R1
T1
VCC
D.U.T
HP11667A
10pF
50Ω
Switching Waveforms
Voltage Waveforms Enable and Disable Times
Pulse Skew - tSK(p)
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PI3CH360
3-Channel 2:1 Mux/DeMux, Enable Low
1.8V/2.5V/3.3V, High-Bandwidth, Hot Plug
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Applications Information
Logic Inputs
The logic control inputs can be driven up to 3.6V regardless of the supply voltage. For example, given a +3.3V supply, EN
may be driven LOW to 0V and HIGH to 3.6V. Driving EN Rail-to-Rail® minimizes power consumption.
Hot Insertion
For Datacom and Telecom applications that have ten or more volts passing through the backplane, a high voltage from the
power supply may be seen at the device input pins during hot insertion. The PI3CH360 devices have maximum limits of 6V
and 120mA for 20ns. If the power is higher or applied for a longer time or repeatedly reaches the maximum limits, the devices
can be damaged.
Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd.
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3-Channel 2:1 Mux/DeMux, Enable Low
1.8V/2.5V/3.3V, High-Bandwidth, Hot Plug
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Mechanical Information
16-Pin TSSOP(L)
Ordering Information
Package Cede
Part No.
PI3CH360LE
Package
Lead free and Green 16-Pin TSSOP
Lead free and Green 16-Pin TSSOP,
Tape &Reel
L
L
PI3CH360LEX
Note:
E = Pb-free & Green
Adding X Suffix= Tape/Reel
Pericom Semiconductor Corporation 1-800-435-2336 www.pericom.com
Pericom reserves the right to make changes to its products or specifications at any time, without notice, in order to improve design or performance and to supply
the best possible product. Pericom does not assume any responsibility for use of any circuitry described other than the circuitry embodied in Pericom product. The
company makes no representations that circuitry described herein is free from patent infringement or other rights, of Pericom.
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