885009.0 - TriQuint Semiconductor

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 1 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Applications

• General Purpose Wireless

• Wireless Infrastructure

• 4G Multi-Standard

• Repeaters

SMP-12, 3.00 x 3.00 x 1.22 mm

Functional Block Diagram

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

Ordering Information

Part No. Description

885009 Packaged part

885009-EVB Evaluation board

Standard T/R size = 5000 units/reel

Pin Configuration – Single Ended

Pin No. Label

2 Input

5 Output

1,3, 4 6 Ground

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.

4

2

3

16

5

Input Output

Gnd

Gnd Gnd

Gnd

Pb

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 2 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Electrical Specifications for Matched Conditions

(1)

Test conditions unless otherwise noted:

(2)

Temp= −30 °C to +85 °C

Parameter

(3)

Conditions Min Typ

(4)

Max Units

Center Frequency - 2535 - MHz

Insertion Loss At center frequency - 1.3 2.5 dB

Maximum Insertion Loss 2500 – 2570 MHz - 2.2 3.5 dB

3.5 dB Bandwidth

(7)

2500 – 2570 MHz 70 91.5 - MHz

Lower 3.5 dB Bandwidth

(

7

)

Upper 3.5 dB Bandwidth

(7)

-

2570

2489

2580

2500

- MHz

Amplitude Variation

(5)

2500 – 2570 MHz - 0.92 1.6 dB p-p

Amplitude Ripple

(6)

2500 – 2570 MHz - 0.41 1.4 dB p-p

2500 – 2570 MHz (any 5 MHz in

passband) - 0.36 0.8 dB p-p

Phase Ripple 2500 – 2570 MHz - 36 55 deg dB

Group Delay Ripple 2500 – 2570 MHz - 14 25 ns p-p

Absolute Group Delay 2500 – 2570 MHz - 0.014 0.02 µs

Temperature Drift

(

8

)

2500 – 2570 MHz - 0.25 0.35 dB

EVM (Any 3.84 MHz Channel) 2502.5 – 2567.5 MHz - 1.2 2 %

IIP3 (Tones 5 MHz separated, power >

5 dBm per tone) 44 47 - dBm

Stopband Attenuation

(7)

70 – 120 MHz

300 – 500 MHz

1784 – 1854 MHz

2110 – 2170 MHz

2321 – 2391 MHz

2620 – 2673 MHZ

2673 – 2695 MHZ

3926

–

4782 MHZ

25

30

45

34

15

20

30

20

56

45

54

41

32

41

40

27

-

dB

Input/Output VSWR 2500 – 2570 MHz - 1.5 2.1 -

Source / Load Impedance

(

9

)

single-ended - 50 - Ω

Notes:

1. All specifications are based on the TriQuint schematic for the main reference design shown on page 4.

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. Describes the total variation over the defined frequency range.

6. This is a defined as the worst difference between a peak and adjacent valley within defined frequency points.

7. Relative to center frequency.

8. Temperature drift specification is defined on page 4 and is guaranteed by design and won’t be measured in production.

9. This is the optimum impedance in order to achieve the performance shown.

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 3 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Temperature Drift Equations:

Temp



Drift



=

│

max

(

T



−

T



)



−



min

(

T



−



T



)

2

│

Temp



Drift





=

│

max

(

T



−

T

!

)



−



min

(

T



−



T

!

)

2

│

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





Electrical Specifications for Matched Conditions

(1)

Test conditions unless otherwise noted:

(2)

Temp= −40 °C to +85 °C

Parameter

(3)

Conditions Min Typ

(4)

Max Units

Center Frequency - 2535 - MHz

Insertion Loss At center frequency - 1.3 2.75 dB

Maximum Insertion Loss 2500 – 2570 MHz - 2.2 3.75 dB

3.5 dB Bandwidth

(7)

2500 – 2570 MHz 70 92.2 - MHz

Lower 3.5 dB Bandwidth

(7)

Upper 3.5 dB Bandwidth

(7)

-

2570

2489

2580

2500

- MHz

Amplitude Variation

(5)

2500 – 2570 MHz - 0.92 1.7 dB p-p

Amplitude Ripple

(6)

2500 – 2570 MHz - 0.41 1.5 dB p-p

2500 – 2570 MHz (any 5 MHz in

passband) - 0.36 0.9 dB p-p

Phase Ripple 2500 – 2570 MHz - 36 60 deg dB

Group Delay Ripple 2500 – 2570 MHz - 14 30 ns p-p

Absolute Group Delay 2500 – 2570 MHz - 0.014 0.02 µs

Temperature Drift

(8)

2500 – 2570 MHz - 0.25 0.38 dB

EVM (Any 3.84 MHz Channel) 2502.5 – 2567.5 MHz - 1.2 2.2 %

IIP3 (Tones 5 MHz separated, power >

5 dBm per tone) 44 47 - dBm

Stopband Attenuation

(7)

70 – 120 MHz

300 – 500 MHz

1784 – 1854 MHz

2110 – 2170 MHz

2321 – 2391 MHz

2620 – 2673 MHZ

2673 – 2695 MHZ

3926

–

4782 MHZ

25

30

45

34

15

20

30

20

56

45

54

41

32

41

40

27

-

dB

Input/Output VSWR 2500 – 2570 MHz - 1.5 2.1 -

Source / Load Impedance

(

9

)

single-ended - 50 - Ω

Notes:

1. All specifications are based on the TriQuint schematic for the main reference design shown on page 4.

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. Describes the total variation over the defined frequency range.

6. This is a defined as the worst difference between a peak and adjacent valley within defined frequency points.

7. Relative to center frequency.

8. Temperature drift specification is defined on page 4 and is guaranteed by design and won’t be measured in production.

9. This is the optimum impedance in order to achieve the performance shown.

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 4 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Evaluation Board

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. Value Description Manuf. Part Number

U1 - 2535 MHz SAW filter TriQuint 885009

L1 2.2nH Coil Wire-wound, 0402, 5% Murata LQW15AN2N2J00

L2 2.2nH Coil Wire-wound, 0402, 5% Murata LQW15AN2N2J00

C1 0.4pF Chip Capacitor, 0402, 5% Murata GRM1555C1HR40WA01

C2 0.5pF Chip Capacitor, 0402, 5% Murata GRM1555C1HR50WA01

SMA - SMA connector Radiall 9602-1111-018

PCB - 3-Layer TriQuint 960700

PCB Mounting Pattern

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.

Absolute Maximum Ratings

Parameter Rating

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 °C for 10,000 hrs.

4. Sustains an instantaneous +35 dBm signal without decay.

Storage Temperature

(1)

−40 to +125 °C

OperableTemperature

(2)

−40 to +125 °C

RF Input Power

(3)(4)

+30 dBm

960700

EX

JJJYM

L1 L2

C1 C2

1,3,4,6

50Ω

ΩΩ

Ω0.4pF

2.2nH

0.5pF

2 5

2.2nH

50Ω

ΩΩ

Ω

.96

3.20 SQ

1.27

.38

.81

1.70

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 5 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

50 Ω

Single-ended

Input

50 Ω

Single-ended

Output

1,3,4,6

25

50 50

Ω

ΩΩ

Ω

960700

JJJYM

XX

Electrical Specifications for Unmatched Conditions

(1)

Test conditions unless otherwise noted:

(2)

Temp= −30 °C to +85 °C

Parameter

(3)

Conditions Min Typ

(4)

Max Units

Center Frequency - 2535 - MHz

Insertion Loss At center frequency - 1.9 2.75 dB

Maximum Insertion Loss 2500 – 2570 MHz - 2.4 3.5 dB

3.5 dB Bandwidth

(7)

2500 – 2570 MHz 70 93.2 - MHz

Lower 3.5 dB Bandwidth

(7)

Upper 3.5 dB Bandwidth

(7)

-

2570

2489

2582

2500

- MHz

Amplitude Variation

(5)

2500 – 2570 MHz - 1.05 1.8 dB p-p

Amplitude Ripple

(6)

2500 – 2570 MHz - 0.5 1.5 dB p-p

2500 – 2570 MHz (any 5 MHz in

passband) - 0.4 0.9 dB p-p

Phase Ripple 2500 – 2570 MHz - 36 65 deg dB

Group Delay Ripple 2500 – 2570 MHz - 14 30 ns p-p

Absolute Group Delay 2500 – 2570 MHz - 0.014 0.02 µs

EVM (Any 3.84 MHz Channel) 2502.5 – 2567.5 MHz - 1.3 2.5 %

IIP3 (Tones 5 MHz separated, power >

5 dBm per tone) 44 47 - dBm

Stopband Attenuation

(7)

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

25

30

45

34

15

20

30

20

56

44

54

42

33

41

40

27

25

-

dB

Input/Output VSWR 2500 – 2570 MHz - 2.4 - -

Source / Load Impedance

(

8

)

single-ended - 50 - Ω

Notes:

1. All specifications are based on the TriQuint schematic for the main reference design shown below.

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. Describes the total variation over the defined frequency range.

6. This is a defined as the worst difference between a peak and adjacent valley within defined frequency points.

7. Relative to center frequency.

8. This is the optimum impedance in order to achieve the performance shown.

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 6 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Performance Plots – Evaluation Board (matched)

Test conditions unless otherwise noted:

Temp= +25 °C

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 7 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Performance Plots – Evaluation Board (unmatched)

Test conditions unless otherwise noted:

Temp= +25 °C

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 8 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Package Information, Marking and Dimensions

Package Style: SMP-12A

Body: Al

2

O

3

ceramic.

Lid: Kovar, Ni plated.

Terminations: Au plating 0.5 - 1.0 μm, over a 2-6 μm Ni plating.

The date code consists of: day of the current year (Julian,

3 digits), Y = last digit of the year, and M = manufacturing site

code.

Notes:

1. All dimensions shown are typical in millimeters.

2. All tolerances are ±0.15 mm except overall length and width

±0.10 mm.

3. An asterisk (*) in front of the marking code indicates prototype.

Tape and Reel information

Standard T/R size = 5000 units/reel. All dimensions are in millimeters

0.69

1.22 NOM.

1.32 MAX.

0.75

0.60

1.50

0.75

3.00

EX

code

Marking

Date code

JJJYM

logo

ID dot

TriQuint

3.25

Section A-A

1.75

Ø1.5

4.0 A

12.0

5.5

Ø1.5

4.0

2.0

3.25

1.4

0.21

A

Ø102 Ø20.2

Ø13.0 2.0 Direction of travel

Ø330

12.8

2.7 logo

ID dot TriQuint

885009

2535 MHz BAW Filter

Data Sheet: Rev E 04-28-15

- 9 of 9 -

Disclaimer: Subject to change without notice

RFMD + TriQuint = Qorvo

Product Compliance Information

ESD Sensitivity Ratings

Caution! ESD-Sensitive Device

ESD Rating: Class 0

Test: Human Body Model (HBM)

Standard: ESDA/JEDEC JS-001

ESD Rating: Class A

Test: Machine Model (MM)

Standard: JEDEC Standard JESD22-A115

Solderability

Compatible with both lead-

free (260°C maximum reflow

temperature) and tin/lead (245°C maximum reflow

temperature) soldering processes.

Refer to Soldering Profile

for recommended

guidelines.

RoHs Compliance

This part is

compliant with EU 2002/95/EC RoHS

directive (Restrictions on the Use of Certain Haza

rdous

Substances in Electrical and Electronic Equipment).

This product also has the following attributes:

• Lead Free

• Halogen Free (Chlorine, Bromine)

• Antimony Free

• TBBP-A (C

15

H

12

Br

4

0

2

) Free

• PFOS Free

• SVHC Free

MSL Rating

Not applicable. Hermetic package.

Contact Information

For the latest specifications, additional product information, worldwide sales and distribution locations:

Web: www.triquint.com Tel: 877-800-8584

Email: customer.support@qorvo.com

For information about the merger of RFMD and TriQuint as Qorvo:

Web: www.qorvo.com

For technical questions and application information: Email: flapplication.engineering@tqs.com

Important Notice

The information contained herein is believed to be reliable.

TriQuint makes no warranties regarding the information

contained herein.

TriQuint assumes no responsibility or liability whatsoever for any of the information contained

herein. TriQuint assumes no responsibility or liability whatsoever for the use of the information contained herein.

The

information contained herein is provided "AS IS, WHERE IS" and with all faults, and the entire risk associated with

such information is entirely with the user. All information contained herein is subject to change witho

ut notice.

Customers should obtain and verify the latest relevant information before placing orders for TriQuint products. The

information contained herein or any use of such information does not grant, explicitly or implicitly, to any party any

patent r

ights, licenses, or any other intellectual property rights, whether with regard to such information itself or

anything described by such information.

TriQuint products are not warranted or authorized for use as critical components in medical, life-saving, or life-

sustaining applications, or other applications where a failure would reasonably be expected to cause severe personal

injury or death.