857061
782 MHz Notch Filter
Applications
•
•
•
B13 notch filter for SVLTE applications
Applicable passbands: 836.5 MHz cell band, 881.5 MHz
cell band, 751 MHz B13 LTE.
Handsets
Product Features
•
•
•
•
•
•
•
High linear notch filter
Usable reject band 10 MHz
Low loss in 824-849 MHz/869-894 MHz and 746-756
MHz
High B13 attenuation
Ceramic chip-scale Package (CSP)
Small Size: 2.5 x 2.00 x 0.56 mm
Hermetic
RoHS
compliant,
Pb-free
Functional Block Diagram
Top view
Gnd Gnd Output GndGnd
11 10
Gnd
12
1
2
3
9
8
7
Gnd
13 6
Gnd
4
5
Gnd Gnd Input Gnd Gnd
General Description
The 857061 is a high performance Surface Acoustic Wave
(SAW) Notch Filter designed to reject emissions in the B13
band while passing Band 5 cell band.
857061 is specifically designed to enable simultaneous voice
and LTE for Band 5 application. It is specified to support Band
5 requirements in the entire 824 - 894 MHz band.
The 857061 uses advanced packaging techniques to achieve an
industry-leading 2.5 x 2.0 x 0.56 mm package. The filter
exhibits excellent power handling capabilities.
Pin Configuration
Pin # SE-Balanced
3
9
1,2,4,5,7,8,10,11
6,12,13
Description
Input
Output
Ground
Case Ground
Ordering Information
Part No.
857061
857061-EVB
Description
packaged part
evaluation board
Standard T/R size = 10,000 units/reel.
Preliminary Data Sheet: Rev D 01/18/2012
© 2011 TriQuint Semiconductor, Inc.
- 1 of 6 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network
857061
782 MHz Notch Filter
Specifications
Electrical Specifications
(1)
Specified Temperature Range:
(2)
-30 to +85 ºC
Parameter
(3)
Center Frequency
Maximum Insertion Loss
Amplitude Variation
(6)
Conditions
746 – 756 MHz
824 – 849 MHz
869– 894 MHz
746 – 756 MHz
824 – 849 MHz
869– 894 MHz
777 – 787 MHz
1564 – 1574 MHz
1574 – 1577 MHz
2331 – 2361 MHz
2400 – 2484 MHz
746 – 756 MHz
824 – 849 MHz
869– 894 MHz
Min
-
-
-
-
-
-
-
20
3
3
5
5
10
13
13
-
-
-
Typical
(4)
782
1.0
0.6
0.6
0.25
0.1
0.1
24
4
4
7
7
14
18
18
-105
50
50
Max
-
1.5
1.0
1.0
0.5
0.2
0.2
-
-
-
-
-
-
-
Units
MHz
dB
dB
dB
dB p-p
dB p-p
dB p-p
dB
dB
dB
dB
dB
dB
dB
dBm
Absolute Attenuation
Input /Output Return Loss
IMD3 product
(5)
Source Impedance (single-ended)
(5)
Load Impedance (single-ended)
(5)
-
-
Ω
Ω
Notes:
1. All specifications are based on the TriQuint schematic for the main reference design shown on page 3
2. In production, devices will be tested at room temperature to a guardbanded specification to ensure electrical compliance over temperature
3. Electrical margin has been built into the design to account for the variations due to temperature drift and manufacturing tolerances
4. Typical values are based on average measurements at room temperature
5. All power levels are referenced to the antenna port. Two CW tones are applied at frequencies f1 and f2, and the resultant intermodulation
product in the 746-756 MHz band is measured. The first tone (f1 = 824-832 MHz, 24 dBm referenced to the antenna port) is applied at the
output port (Duplexer). The second tone (f2 =f1-45 MHz, 13 dBm referenced to the antenna port) is applied at the input port (Antenna). The
intermodulation product is measured at f1+45 MHz
6. Over a sliding 1.25 MHz window, in-band
Absolute Maximum Ratings
(7)
Parameter
Operating Temperature
Storage Temperature
Input Power
(8)
Rating
-30 to +85
o
C
-40 to +85
o
C
+29 dBm
7. Operation of this device outside the parameter ranges given above may cause permanent damage.
8. All ports matched to 50 Ohms. (55
o
C, equivalent 5000 hours).
Preliminary Data Sheet: Rev D 01/18/2012
© 2011 TriQuint Semiconductor, Inc.
- 2 of 6 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network
857061
782 MHz Notch Filter
Reference Design 50Ω SE In 50Ω SE Out
Ω
In,
Ω
Schematic
L3
Input
Single-ended
FRONT END
ANTENNA
50Ω
Ω
3
L1
13nH
9
5.6nH
L2
15nH
50
Ω
Output
Single-ended
1,2,4,5,6,7,8
10,11,12,13
Notes:
Actual matching values may vary due to PCB layout and parasitic
PC Board
Mounting Configuration
2.35
1.33
0.40
11 10
1.85
12
1
0.19x45°
CHAMF.
2
9
13
3
4
0.31
8
7
0.55
6
5
0.20
Notes:
Top, middle & bottom layers: 1 oz copper
Substrates: FR4 dielectric, .031” thick
Finish plating: Nickel: 3-8µm thick, Gold: .03-.2µm thick
.2µm
Hole plating: Copper min .0008µm thick
Notes:
1.
Top view of the product.
2.
All dimensions are in millimeters.
3.
This footprint represents a recommendation only.
Bill of Material
Reference Desg.
L1
L2
L3
SMA
PCB
Value
13 nH
15 nH
5.6 nH
N/A
N/A
Description
Coil Wire
Wire-wound, 0402, y%
Coil Wire
Wire-wound, 0402, y%
Coil Wire
Wire-wound, 0402, y%
SMA connector
3-layer
layer
Manufacturer
MuRata
MuRata
MuRata
Radiall USA Inc.
Multiple
Part Number
LQW15AN13NH00
LQW15AN
LQW15AN15NH00
LQW15AN
LQW15AN5N6B00
LQW15AN
9602-1111-018
9602
960930
960
Preliminary Data Sheet: Rev D 01/18/2012
© 2011 TriQuint Semiconductor, Inc.
- 3 of 6 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network
857061
782 MHz Notch Filter
Typical Performance
(at room temperature)
Preliminary Data Sheet: Rev D 01/18/2012
© 2011 TriQuint Semiconductor, Inc.
- 4 of 6 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network
857061
782 MHz Notch Filter
Mechanical Information
Package Information, Dimensions and Marking
Marking
Code
MFG site
*GY M
WWY
ID dot
Date code
Package Style: CSP-10GT
Dimensions: 2.5 x 2.00 x 0.56 mm
Body:
Al
2
O
3
ceramic
Lid: Kovar or Alloy 42, Au over Ni plated
Terminations:
Au
plating 0.5 - 1.0µm, over a 2-6µm
Ni
plating
All dimensions shown are nominal in millimeters
All tolerances are ±0.15mm except overall length and width
±0.10mm
The date code consists of: WW = 2 digit week,
Y = last digit of year, M = manufacturing site code
Tape and Reel Information
Standard T/R size = 10,000 units/reel. All dimensions are in millimeters
8.8
2.7
Ø330
ID dot
4.0
0.3
2.0
Ø1.5
A
1.75
3.5
Ø102
Direction of travel
Ø20.2
Ø13.0
2.0
2.75
1.1
Section A-A
2.23
4.0
Ø1.0
A
8.0
Preliminary Data Sheet: Rev D 01/18/2012
© 2011 TriQuint Semiconductor, Inc.
- 5 of 6 -
Disclaimer: Subject to change without notice
Connecting the Digital World to the Global Network
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