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Электронный компонент: 4283-01

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Page 1 of 11
Document No. 70-0177-04
www.psemi.com
2005 Peregrine Semiconductor Corp. All rights reserved.
Parameter Conditions
Typical Units
Operation Frequency
1
DC - 4000
MHz
Insertion Loss
1000 MHz
2500 MHz
0.65
0.70
dB
dB
Isolation: RFC - RF1/RF2
1000 MHz
2500 MHz
33.5
21.5
dB
dB
Isolation: RF1 - RF2
1000 MHz
2500 MHz
37.5
22
dB
dB
`ON' Switching Time
50% CTRL to 0.1 dB of final value, 1 GHz
0.725
s
`OFF' Switching Time
50% CTRL to 25 dB isolation, 1 GHz
0.625
s
Input 1 dB Compression
1000 MHz
+32
dBm
Input IP3
1000 MHz, 20 dBm input power
+53
dBm
Min
DC
31.5
19.5
35.5
20
30
Max
4000
0.75
0.80
1.5
1.3
Return Loss
1000 MHz
2500 MHz
19
16
dB
dB
RFC
RF1
RF2
CMOS
Control
Driver
V1
V2
The PE4283 RF Switch is designed to cover a broad range
of applications from DC through 4000 MHz. This reflective
switch integrates on-board CMOS control logic with a low
voltage CMOS-compatible control interface, and can be
controlled using either single-pin or complementary control
inputs. The PE4283 operates using a +3 volt power supply.

The PE4283 SPDT High Power RF Switch is manufactured
on Peregrine's UltraCMOSTM process, a patented variation
of silicon-on-insulator (SOI) technology on a sapphire
substrate, offering the performance of GaAs with the
economy and integration of conventional CMOS.
Product Specification
SPDT High Power UltraCMOSTM
DC 4.0 GHz RF Switch
Product Description
Figure 1. Functional Diagram
PE4283
Features
Single-pin or complementary CMOS
logic control inputs
1.5 kV ESD tolerance
Low insertion loss: 0.65 dB at
1000 MHz, 0.70 dB at 2500 MHz
RFC-RF1/RF2 isolation of 33.5 dB at
1000 MHz, 21.5 dB at 2500 MHz
RF1-RF2 isolation of 37.5 dB at
1000 MHz, 22 dB at 2500 MHz
Typical input 1 dB compression point
of +32 dBm
Ultra-small SC-70 package
Note: 1. Device linearity will begin to degrade below 10 MHz.
Table 1. Electrical Specifications @ +25 C, V
DD
= 3 V
(Z
S
= Z
L
= 50
)
Figure 2. Package Type SC-70
6-lead SC-70
Product Specification
PE4283
Page 2 of 11
2005 Peregrine Semiconductor Corp. All rights reserved.
Document No. 70-0177-04
UltraCMOSTM RFIC Solutions
Table 2. Pin Descriptions
Electrostatic Discharge (ESD) Precautions
When handling this UltraCMOSTM device, observe
the same precautions that you would use with
other ESD-sensitive devices. Although this device
contains circuitry to protect it from damage due to
ESD, precautions should be taken to avoid
exceeding the rating specified in Table 3.
Latch-Up Avoidance
Unlike conventional CMOS devices, UltraCMOSTM
devices are immune to latch-up.
Table 4. DC Electrical Specifications
Figure 3. Pin Configuration (Top View)
1
2
3
4
5
6
V2
RFC
V1
RF1
GND
RF2
28
3
pin 1
Pin
No.
Pin
Name
Description
1 RF1
RF Port1
2
2 GND
Ground connection. Traces should be
physically short and connected to ground
plane for best performance.
3 RF2
RF Port2
2
4
V1
Switch control input, CMOS logic level.
5 RFC
RF Common
2
6 V2
This pin supports two interface options:
Single-pin control mode. A nominal 3-volt
supply connection is required.
Complementary-pin control mode. A
complementary CMOS control signal
to V1 is supplied to this pin.
Parameter Min
Typ
Max
Units
V
DD
Power Supply Voltage
2.0
3.0
3.3
V
I
DD
Power Supply Current
(V1
= 3V, V2 = 3V)
8
50
A
Control Voltage High
0.7x V
DD
V
Control Voltage Low
0.3x V
DD
V
Note: 2. All RF pins must be DC blocked with an external series
capacitor or held at 0 VDC.
Table 3. Absolute Maximum Ratings
Symbol Parameter/Conditions Min Max Units
V
DD
Power supply voltage
-0.3
4.0
V
V
I
Voltage on any input
-0.3
V
DD
+
0.3
V
T
ST
Storage temperature
range
-65 150 C
T
OP
Operating temperature
range
-40 85 C
P
IN
Input power (50
)
+34
dBm
V
ESD
ESD Voltage (HBM,
ML_STD 883 Method
3015.7)
1500
V
ESD Voltage (MM,
JEDEC, JESD22-A114-B)
100
V
Absolute Maximum Ratings are those values
listed in the above table. Exceeding these values
may cause permanent device damage.
Functional operation should be restricted to the
limits in the DC Electrical Specifications table.
Exposure to absolute maximum ratings for
extended periods may affect device reliability.
Figure 4. Maximum Operating Input Power
3
Note: 3. Operating within DC limits (Table 4).
Product Specification
PE4283
Page 3 of 11
2005 Peregrine Semiconductor Corp. All rights reserved.
Document No. 70-0177-04
www.psemi.com
Control Voltages
Signal Path
Pin 6 (V2) = V
DD
Pin 4 (V1) = High
RFC to RF1
Pin 6 (V2) = V
DD
Pin 4 (V1) = Low
RFC to RF2
Table 5. Single-pin Control Logic Truth Table
Table 6. Complementary-pin Control Logic
Truth Table
Control Voltages
Signal Path
Pin 6 (V2 ) = Low
Pin 4 (V1) = High
RFC to RF1
Pin 6 (V2) = High
Pin 4 (V1) = Low
RFC to RF2
Control Logic Input
The PE4283 is a versatile RF CMOS switch that
supports two operating control modes; single-pin
control mode and complementary-pin control
mode.

Single-pin control mode enables the switch to
operate with a single control pin (pin 4) supporting
a +3-volt CMOS logic input, and requires a
dedicated +3-volt power supply connection (pin 6).
This mode of operation reduces the number of
control lines required and simplifies the switch
control interface typically derived from a CMOS
Processor I/O port
.

Complementary-pin control mode allows the
switch to operate using complementary control
pins V1 and V2 (pins 4 & 6), that can be directly
driven by +3-volt CMOS logic or a suitable
Processor I/O port. This enables the PE4283 to
operate in positive control voltage mode within the
PE4283 operating limits.
Product Specification
PE4283
Page 4 of 11
2005 Peregrine Semiconductor Corp. All rights reserved.
Document No. 70-0177-04
UltraCMOSTM RFIC Solutions
Evaluation Kit
The SPDT switch EK Board was designed to ease
customer evaluation of Peregrine's PE4283. The
RF common (RFC) port is connected through a
50
transmission line via the top SMA connector,
J1. RF1 and RF2 are connected through 50
transmission lines via SMA connectors J2 and J3,
respectively. A through 50
transmission is
available via SMA connectors J4 and J5. This
transmission line can be used to estimate the loss
of the PCB over the environmental conditions
being evaluated.

The board is constructed of a two metal layer FR4
material with a total thickness of 0.031". The
bottom layer provides ground for the RF
transmission lines. The transmission lines were
designed using a coplanar waveguide with ground
plane model using a trace width of 0.0476", trace
gaps of 0.030", dielectric thickness of 0.028",
metal thickness of 0.0021" and
r
of 4.4.

J6 and J7 provide a means for controlling DC and
digital inputs to the device. J6-1 is connected to
the device V2 input. J7-1 is connected to the
device V1 input. Series resistors (R1 and R2) are
provided to reduce the package resonance
between RF and DC lines.
Figure 5. Evaluation Board Layouts
Figure 6. Evaluation Board Schematic
Peregrine Specification 102/0322
Peregrine Specification 101/0162
Product Specification
PE4283
Page 5 of 11
2005 Peregrine Semiconductor Corp. All rights reserved.
Document No. 70-0177-04
www.psemi.com
Figure 8. Insertion Loss @ 3 V
Figure 7. Insertion Loss @ 25 C
Typical Performance Data
Figure 9. Isolation: RF1-RF2 @ 25 C
Figure 10. Isolation: RF1-RF2 @ 3 V