ACT ACTF4208 Low-loss rf filter Datasheet

ACTF4208,422.925-DCC-6 Features:
 Low-loss RF filter
 Single Ended Operation at 50Ω without Matching
 Ceramic Package for Surface Mounted
Technology (SMT)
 Lead-free Production and RoHS Compliance
Package Dimensions
Ceramic Package: DCC6
Pin Configuration
2
Input
5
Output
1, 3, 4, 6
Case Ground
1, 3, 4, 6
To Be Grounded
Marking
Top View, Laser Marking
"ACT”:
Manufacturer’s mark
“F”:
SAW filter
“4208”:
Part number
” · ”:
Terminal 1
“*”:
Lot number (The code shown below varies in a 4-year cycle)
1
2
2009
A
B
C
D
2010
N
P
Q
R
2011
a
b
c
d
2012
n
p
q
r
Code
3
4
5
6
7
8
9
E
F
G
H
J
S
T
U
V
W
e
f
g
h
i
s
t
u
v
w
10
11
12
K
L
M
X
Y
Z
j
k
m
x
y
z
Maximum Ratings
Rating
Value
Unit
Operating Temperature Range
TA
-40 ~ +85
°C
Storage Temperature Range
Tstg
-40 ~ +85
°C
DC Voltage (between any Terminals)
VDC
5
V
RF Power (in BW)
P
26 max.
dBm
ESD Voltage (HB)
VESD
150
V
-1-
Electrical Characteristics (-40
~ +85 )
Item
Center Frequency
Minimum
Typical
Maximum
Unit
fC
-
422.925
-
MHz
Maximum Insertion Loss in 420.00 ~ 425.85 MHz
IL
-
2.3
3.0
dB
Absolute Attenuation
α
0.30 … 382.50 MHz
55
65
-
dB
382.50 … 410.00 MHz
45
55
-
dB
410.00 … 415.85 MHz
45
55
-
dB
440.00 … 462.50 MHz
40
50
-
dB
462.50 … 782.50 MHz
50
60
--
dB
782.50 … 1500.0 MHz
35
38
--
dB
15
19
--
dB
0.8
1.2
dB
70
120
ns
-
1.8:1
2.0:1
-
1.8:1
2.0:1
1500.0 … 2000.0 MHz
Pass Band Ripple
420.00 ~ 425.85 MHz
Group Delay Variation
420.00 ~ 425.85 MHz
Input VSWR in 420.00 ~ 425.85 MHz
Δα
Output VSWR in 420.00 ~ 425.85 MHz z
Source / Load Impedance (single ended)
50
RoHS Compatible
Electrostatic Sensitive Device
Typical Frequency Response
-2-
Ω
-3-
Stability Characteristics
Test item
Condition of test
1
Mechanical shock
(a) Drops: 3 times on concrete floor
(b) Height: 1.0 m
2
Vibration resistance
(a) Frequency of vibration: 10~55Hz
(c) Directions: X,Y and Z
(b) Amplitude: 1.5 mm
(d) Duration: 2 hours
3
Moisture resistance
(a) Condition: 40°C, 90~95% R.H.
(c) Wait 4 hours before measurement
(b) Duration: 96 hours
4
Climatic sequence
(a) +70°C for 16 hours
(b) +55°C for 24 hours, 90~95% R.H.
(c) -25°C for 2 hours
(d) +40°C for 24 hours, 90~95% R.H.
(e) Wait 4 hours before measurement
5
High temperature exposure
(a) Temperature: 70°C
(c) Wait 4 hours before measurement
6
Thermal impact
(a) +70°C for 30 minutes  -25°C for 30 minutes repeated 3 times
(b) Wait 4 hours before measurement
(b) Duration: 250 hours
Requirements: The SAW filer shall remain within the electrical specifications after tests.
Remarks
 SAW devices should not be used in any type of fluid such as water, oil, organic solvent, etc.
 Be certain not to apply voltage exceeding the rated voltage of components.
 Do not operate outside the recommended operating temperature range of components.
 Sudden change of temperature shall be avoided, deterioration of the characteristics can occur.
 Be careful of soldering temperature and duration of components when soldering.
 Do not place soldering iron on the body of components.
 Be careful not to subject the terminals or leads of components to excessive force.
 SAW devices are electrostatic sensitive. Please avoid static voltage during operation and storage.
 Ultrasonic cleaning shall be avoided. Ultrasonic vibration may cause destruction of components.
Test Circuit
Recommended Land Pattern
50Ω / 50Ω Configuration
-4-
Packing Information
Carrier Tape
Reel Dimensions
Outer Packing
Type
Quantity
Dimension
Description
Weight
Carton Box
5000
190×190×95
0.85
Carton Box Ⅱ
10000
190×190×190
anti-static plastic bag & carton box
1 reel / bag
5 bags / box (5000 pcs)
10 bags / box (10000 pcs)
Unit: mm
1.70
Unit: kg
-5-
Recommended Soldering Profile
1.
2.
3.
The specifications of this device are subject to change or obsolescence without notice.
Typically, equipment utilizing this device requires emissions testing and government approval, which is the responsibility
of the equipment manufacturer.
Our liability is only assumed for the Surface Acoustic Wave (SAW) component(s) per se, not for applications, processes
and circuits implemented within components or assemblies.
-6-
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