B39321B3741H110 Datasheet B39321B3741H110 | P7-P9

5 January 08, 2013

B3741

315.00 MHz

SAW Components

SAW filter

Data sheet

Please read

cautions and warnings and

important notes

at the end of this document.

Matching network to 50 Ω (element values depend on pcb layout and equivalent circuit)

Minimising the crosstalk

For a good ultimate rejection a low crosstalk is necessary. Low crosstalk can be realised with a good

RF layout. The major crosstalk mechanism is caused by the “ground-loop” problem.

Grounding loops are created if input-and output transducer GND are connected on the top-side of

the PCB and fed to the system grounding plane by a common via hole. To avoid the common

ground path, the ground pin of the input- and output transducer are fed to the system ground plane

(bottom PCB plane) by their own via hole. The transducers’ grounding pins should be isolated from

the upper grounding plane.

A common GND inductivity of 0.5nH degrades the ultimate rejection (crosstalk) by 20dB.

The optimised PCB layout, including matching network for transformation to 50 Ohm, is shown

here. In this PCB layout the grounding loops are minimised to realise good ultimate rejection

Optimised PCB layout for SAW filters in DCC6E package, pinning 1,4 (top side, scale 1:1)

The bottom side is a copper plane (system ground area). The input and output grounding pins are

isolated and connected to the common ground by separated via holes.

For good contact of the upper grounding area with the lower side it is necessary to place enough

via holes.

= 1.8 pF

= 68 nH

= 1.8 pF

6 January 08, 2013

B3741

315.00 MHz

Please read

cautions and warnings and

important notes

at the end of this document.

SAW Components

SAW filter

Data sheet

ESD protection of SAW filters

SAW filters are Electro Static Discharge sensitive devices. To reduce the probability of damages

caused by ESD, special matching topologies have to be applied.

In general, “ESD matching” has to be ensured at that filter port, where electrostatic discharge is

expected.

Electrostatic discharges predominantly appear at the antenna input of RF receivers. Therefore

only the input matching of the SAW filter has to be designed to short circuit or to block the ESD

pulse.

Below two figures show recommended “ESD matching” topologies.

Depending on the input impedance of the SAW filter and the source impedance, the needed

component values have to be determined from case to case.

Fig. 1 MLC varistor plus ESD matching Fig. 2 Suppressor diode plus ESD matching

In cases where minor ESD occur, following simplified “ESD matching” topologies can be used

alternatively.

Fig. 3 shunt L – series L matching Fig. 4 series C – shunt L matching

Effectiveness of the applied ESD protection has to be checked according to relevant industry

standards or customer specific requirements.

For further information, please refer to EPCOS Application report:

“ESD protection for SAW filters”. This report can be found under www.epcos.com/rke. Click on

“data sheets” and then “Applications” under category “Further information”.

Lp2

Ls3

MLC1

to output

matching

Lp2

Ls3

Dp1

matchin

to output

Lp1

Ls2

matching

to output

Lp2

Cs1

matching

to output

7 January 08, 2013

B3741

315.00 MHz

SAW Components

SAW filter

Data sheet

Please read

cautions and warnings and

important notes

at the end of this document.

Transfer function

Transfer function (wideband)

P1-P3 P4-P6 P7-P9 P10-P12

B39321B3741H110

Mfr. #:

Buy B39321B3741H110

Manufacturer:

Qualcomm RF360

Description:

Signal Conditioning 315MHz 50ohms B3741 2.1dB 6V

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B39321B3741H110