885009
RFMD + TriQuint = Qorvo
2535 MHz BAW Filter
Applications
•
•
•
•
General Purpose Wireless
Wireless Infrastructure
4G Multi-Standard
Repeaters
SMP-12, 3.00 x 3.00 x 1.22 mm
Product Features
•
•
•
•
•
•
•
•
•
Usable bandwidth 70 MHz
High attenuation
Low loss
Excellent power handling
Matching is required for optimum performance at
50 Ω
Small size: 3.00 x 3.00 x 1.22 mm
Ceramic Surface Mount Package (SMP)
Hermetically sealed
RoHS compliant, Pb-Free
Pb
Functional Block Diagram
Gnd
Input
1
6
Gnd
Output
2
5
Gnd
3
4
Gnd
General Description
885009 is a general purpose Uplink filter for band 7.
This filter was specifically designed in a 3x3 mm
hermetic package for base station applications and is
part of our wide portfolio of RF filters in the same
package.
Low insertion loss, coupled with high attenuation and
excellent power handling, makes this filter a natural
choice for our customers Uplink RF filtering needs.
Pin Configuration – Single Ended
Pin No.
2
5
1,3, 4 6
Label
Input
Output
Ground
Ordering Information
Part No.
885009
885009-EVB
Description
Packaged part
Evaluation board
Standard T/R size = 5000 units/reel
Data Sheet: Rev E 04-28-15
© 2015 TriQuint Semiconductor, Inc.
-
1 of 9
-
Disclaimer: Subject to change without notice
www.triquint.com / www.qorvo.com
885009
RFMD + TriQuint = Qorvo
2535 MHz BAW Filter
Electrical Specifications for Matched Conditions
(1)
Test conditions unless otherwise noted:
(2)
Temp= −30 ° to +85 °
C
C
Parameter
(3)
Center Frequency
Insertion Loss
Maximum Insertion Loss
3.5 dB Bandwidth
(7)
(7)
Conditions
At center frequency
2500 – 2570 MHz
2500 – 2570 MHz
Min
-
-
-
70
-
2570
Typ
(4)
2535
1.3
2.2
91.5
2489
2580
0.92
0.41
0.36
36
14
0.014
0.25
1.2
47
56
45
54
41
32
41
40
27
1.5
50
Max
-
2.5
3.5
-
2500
-
1.6
1.4
0.8
55
25
0.02
0.35
2
-
-
-
-
-
-
-
-
-
2.1
-
Units
MHz
dB
dB
MHz
MHz
dB p-p
dB p-p
dB p-p
deg dB
ns p-p
µs
dB
%
dBm
Lower 3.5 dB Bandwidth
(7)
Upper 3.5 dB Bandwidth
Amplitude Variation
Amplitude Ripple
Phase Ripple
Group Delay Ripple
Absolute Group Delay
(8)
Temperature Drift
EVM (Any 3.84 MHz Channel)
IIP3
(6)
(5)
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz (any 5 MHz in
passband)
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz
2502.5 – 2567.5 MHz
(Tones 5 MHz separated, power >
5 dBm per tone)
70 – 120 MHz
300 – 500 MHz
1784 – 1854 MHz
2110 – 2170 MHz
2321 – 2391 MHz
2620 – 2673 MHZ
2673 – 2695 MHZ
3926 – 4782 MHZ
2500 – 2570 MHz
single-ended
-
-
-
-
-
-
-
-
44
25
30
45
34
15
20
30
20
-
-
Stopband Attenuation
(7)
dB
Input/Output VSWR
Source / Load Impedance
Notes:
1.
2.
3.
4.
5.
6.
7.
8.
9.
(9)
-
Ω
All specifications are based on the TriQuint schematic for the main reference design shown on page 4.
In production, devices will be tested at room temperature to a guardbanded specification to ensure electrical compliance
over temperature.
Electrical margin has been built into the design to account for the variations due to temperature drift and manufacturing
tolerances.
Typical values are based on average measurements at room temperature.
Describes the total variation over the defined frequency range.
This is a defined as the worst difference between a peak and adjacent valley within defined frequency points.
Relative to center frequency.
Temperature drift specification is defined on page 4 and is guaranteed by design and won’t be measured in production.
This is the optimum impedance in order to achieve the performance shown.
Data Sheet: Rev E 04-28-15
© 2015 TriQuint Semiconductor, Inc.
-
2 of 9
-
Disclaimer: Subject to change without notice
www.triquint.com / www.qorvo.com
885009
RFMD + TriQuint = Qorvo
2535 MHz BAW Filter
Electrical Specifications for Matched Conditions
(1)
Test conditions unless otherwise noted:
(2)
Temp= −40 ° to +85 °
C
C
Parameter
(3)
Center Frequency
Insertion Loss
Maximum Insertion Loss
3.5 dB Bandwidth
(7)
(7)
Conditions
At center frequency
2500 – 2570 MHz
2500 – 2570 MHz
Min
-
-
-
70
-
2570
Typ
(4)
2535
1.3
2.2
92.2
2489
2580
0.92
0.41
0.36
36
14
0.014
0.25
1.2
47
56
45
54
41
32
41
40
27
1.5
50
Max
-
2.75
3.75
-
2500
-
1.7
1.5
0.9
60
30
0.02
0.38
2.2
-
-
-
-
-
-
-
-
-
2.1
-
Units
MHz
dB
dB
MHz
MHz
dB p-p
dB p-p
dB p-p
deg dB
ns p-p
µs
dB
%
dBm
Lower 3.5 dB Bandwidth
(7)
Upper 3.5 dB Bandwidth
Amplitude Variation
Amplitude Ripple
Phase Ripple
Group Delay Ripple
Absolute Group Delay
(8)
Temperature Drift
EVM (Any 3.84 MHz Channel)
IIP3
(6)
(5)
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz (any 5 MHz in
passband)
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz
2502.5 – 2567.5 MHz
(Tones 5 MHz separated, power >
5 dBm per tone)
70 – 120 MHz
300 – 500 MHz
1784 – 1854 MHz
2110 – 2170 MHz
2321 – 2391 MHz
2620 – 2673 MHZ
2673 – 2695 MHZ
3926 – 4782 MHZ
2500 – 2570 MHz
single-ended
-
-
-
-
-
-
-
-
44
25
30
45
34
15
20
30
20
-
-
Stopband Attenuation
(7)
dB
Input/Output VSWR
Source / Load Impedance
Notes:
1.
2.
3.
4.
5.
6.
7.
8.
9.
(9)
-
Ω
All specifications are based on the TriQuint schematic for the main reference design shown on page 4.
In production, devices will be tested at room temperature to a guardbanded specification to ensure electrical compliance
over temperature.
Electrical margin has been built into the design to account for the variations due to temperature drift and manufacturing
tolerances.
Typical values are based on average measurements at room temperature.
Describes the total variation over the defined frequency range.
This is a defined as the worst difference between a peak and adjacent valley within defined frequency points.
Relative to center frequency.
Temperature drift specification is defined on page 4 and is guaranteed by design and won’t be measured in production.
This is the optimum impedance in order to achieve the performance shown.
−T
−T
) − min(T
2
) − min(T
2
− T
− T
)
│
│
Temperature Drift Equations:
max(T
Temp Drift
=│
Temp Drift
=│
max(T
)
Temperature Drift Terms Defined:
T
- Transmission power in dB measured at +25 degrees C.
T
- Transmission power in dB measured at +85 degrees C.
T
- Transmission power in dB measured at -40 degrees C.
Temperature Drift - Greater of
Temp Drift
vs
Temp Drift
Data Sheet: Rev E 04-28-15
© 2015 TriQuint Semiconductor, Inc.
-
3 of 9
-
Disclaimer: Subject to change without notice
www.triquint.com / www.qorvo.com
885009
RFMD + TriQuint = Qorvo
2535 MHz BAW Filter
Evaluation Board
2.2nH
2
L1
JJJYM
EX
2.2nH
5
0.5pF
1,3,4,6
50Ω
Ω
L2
C2
C1
50Ω
Ω
0.4pF
960700
Notes:
1. No impedance matching required.
2. Top, middle & bottom layers: 1 oz. copper. Substrates: FR4 dielectric 031” thick. Finish plating: Nickel: 3-8 µm thick, Gold: 0.03 -
0.2 µm thick. Hole plating: Copper min .0008 µm thick.
Bill of Material
Reference Des.
U1
L1
L2
C1
C2
SMA
PCB
Value
-
2.2nH
2.2nH
0.4pF
0.5pF
-
-
Description
2535 MHz SAW filter
Coil Wire-wound, 0402, 5%
Coil Wire-wound, 0402, 5%
Chip Capacitor, 0402, 5%
Chip Capacitor, 0402, 5%
SMA connector
3-Layer
Manuf.
TriQuint
Murata
Murata
Murata
Murata
Radiall
TriQuint
Part Number
885009
LQW15AN2N2J00
LQW15AN2N2J00
GRM1555C1HR40WA01
GRM1555C1HR50WA01
9602-1111-018
960700
PCB Mounting Pattern
3.20 SQ
.96
1.70
Notes:
1. All dimensions are in millimeters. Angles are in degrees.
2. This drawing specifies the mounting pattern used on the TriQuint
evaluation board for this product. Some modification may be necessary to
suit end user assembly materials and processes.
1.27
.81
.38
Absolute Maximum Ratings
Parameter
Storage Temperature
(1)
(2)
Rating
−40 to +125 °
C
−40 to +125 °
C
+30 dBm
OperableTemperature
RF Input Power
(3)(4)
Notes:
1. Operation of this device outside the parameter ranges given
may cause permanent damage.
2. Specifications are not guaranteed over all operating conditions.
3. Input Power is targeted for an applied CW modulated RF
signal at 55 ° for 10,000 hrs.
C
4. Sustains an instantaneous +35 dBm signal without decay.
Data Sheet: Rev E 04-28-15
© 2015 TriQuint Semiconductor, Inc.
-
4 of 9
-
Disclaimer: Subject to change without notice
www.triquint.com / www.qorvo.com
885009
RFMD + TriQuint = Qorvo
2535 MHz BAW Filter
Electrical Specifications for Unmatched Conditions
(1)
Test conditions unless otherwise noted:
(2)
Temp= −30 ° to +85 °
C
C
Parameter
(3)
Center Frequency
Insertion Loss
Maximum Insertion Loss
3.5 dB Bandwidth
(7)
(7)
Conditions
At center frequency
2500 – 2570 MHz
2500 – 2570 MHz
Min
-
-
-
70
-
2570
Typ
(4)
2535
1.9
2.4
93.2
2489
2582
1.05
0.5
0.4
36
14
0.014
1.3
47
56
44
54
42
33
41
40
27
25
2.4
50
Max
-
2.75
3.5
-
2500
-
1.8
1.5
0.9
65
30
0.02
2.5
-
-
-
-
-
-
-
-
-
-
-
Units
MHz
dB
dB
MHz
MHz
dB p-p
dB p-p
dB p-p
deg dB
ns p-p
µs
%
dBm
Lower 3.5 dB Bandwidth
(7)
Upper 3.5 dB Bandwidth
Amplitude Variation
Amplitude Ripple
Phase Ripple
Group Delay Ripple
Absolute Group Delay
EVM (Any 3.84 MHz Channel)
IIP3
(6)
(5)
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz (any 5 MHz in
passband)
2500 – 2570 MHz
2500 – 2570 MHz
2500 – 2570 MHz
2502.5 – 2567.5 MHz
(Tones 5 MHz separated, power >
5 dBm per tone)
70 – 120 MHz
300 – 500 MHz
1784 – 1854 MHz
2110 – 2170 MHz
2321 – 2391 MHz
2391 – 2465 MHZ
2620 – 2673 MHZ
2673 – 2695 MHZ
2695 – 5000 MHz
2500 – 2570 MHz
(8)
-
-
-
-
-
-
-
44
25
30
45
34
15
20
20
30
20
-
-
Stopband Attenuation
(7)
dB
Input/Output VSWR
Source / Load Impedance
Notes:
1.
2.
3.
4.
5.
6.
7.
8.
-
Ω
single-ended
All specifications are based on the TriQuint schematic for the main reference design shown below.
In production, devices will be tested at room temperature to a guardbanded specification to ensure electrical compliance
over temperature.
Electrical margin has been built into the design to account for the variations due to temperature drift and manufacturing
tolerances.
Typical values are based on average measurements at room temperature.
Describes the total variation over the defined frequency range.
This is a defined as the worst difference between a peak and adjacent valley within defined frequency points.
Relative to center frequency.
This is the optimum impedance in order to achieve the performance shown.
2
5
50
Ω
Single-ended
Input
50
Ω
1,3,4,6
50
Ω
50
Ω
Single-ended
Output
960700
JJJYM
XX
Data Sheet: Rev E 04-28-15
© 2015 TriQuint Semiconductor, Inc.
-
5 of 9
-
Disclaimer: Subject to change without notice
www.triquint.com / www.qorvo.com
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