ACMD-7402-BLK Datasheet ACMD-7402-TR1, ACMD-7402-BLK | P1-P3

Description

The Avago ACMD-7402 is a miniature duplexer designed

for US PCS handsets.

The ACMD-7402 is designed with Avago Technologies’

Film Bulk Acoustic Resonator (FBAR) technology, which

makes possible ultra-small, high-Q filters at a fraction of

their usual size.

The ACMD-7402 also utilizes Avago’s innovative

Microcap bonded-wafer, chip scale packaging

technology. This process allows the filters to be

assembled in a molded chip-on-board module that is

less than 1.3 mm high with a footprint of only 3.8 x

3.8 mm.

The ACMD-7402 enhances the sensitivity and dynamic

range of PCS receivers by providing more than 54 dB

attenuation of the transmitted signal at the receiver

input and more than 45 dB rejection of transmit-

generated noise in the receive band.

Maximum Insertion Loss in the Tx channel is only 3.5

dB, which minimizes current drain from the power

amplifier. Insertion Loss in the Rx channel is 3.8 dB max,

improving receiver sensitivity.

The excellent power handling capability of the FBAR

bulk-mode resonators supports the high output power

levels needed in PCS handsets while adding virtually no

distortion.

Features

• Miniature size

- 3.8 x 3.8 mm footprint size

- 1.3 mm max height

• High power rating size

- +33 dBm max Tx power

• Lead-free construction

Specifications

• Performance guaranteed –30 to +85°C

• Rx band performance (1930.5 – 1989.5 mHz) size

- Insertion loss: 3.8 dB max size

- Noise blocking: 43 dB min

• Tx band performance (1850.5 – 1909.5 mHz) size

- Insertion loss: 3.5 dB max size

- Interferer blocking: 52 dB min

Applications

• Handsets or data terminals operating in the US

PCS frequency band

ACMD-7402

Miniature PCS Band Duplexer

Data Sheet

Functional Block Diagram

PORT 1

PORT 2

ANT PORT 3

ACMD-7402 Electrical Specifications, Z

= 50 Ω, T

[1,2]

as indicated

– 30°C

[2]

+25°C

[2]

+85°C

[2]

Symbol Parameter Units Min Typ

[3]

Max Min Typ

[3]

Max Min Typ

[3]

Max

Antenna Port to Receive Port

S23 Insertion Loss in Receive Band dB 3.8 1.5 3.5 3.5

(1930.5 – 1989.5 MHz)

∆S23 Ripple (p-p) in Receive Band dB 3.0 1.5 2.6 2.6

S22 Return Loss of Receive Port dB 9.5 9.5 17 9.5

in Receive Band

S23 Attenuation in Transmit Band dB 52 52 56 52

(1850.5 – 1909.5 MHz)

S23 Attenuation 0 – 1600 MHz dB 20 31

S23 Attenuation in Receive 2

dB 18 19

Harmonic Band

(3861 – 3979 MHz)

Transmit Port to Antenna Port

S31 Insertion Loss in Transmit Band dB 3.0 1.1 3.0 3.5

[4]

(1850.5 – 1909.5 MHz)

∆S31 Ripple (p-p) in Transmit Band dB 2.3 0.9 2.3 2.8

S11 Return Loss of Transmit Port dB 9.5 9.5 20 9.5

in Transmit Band

S31 Attenuation in Receive Band dB 43 43 48 43

(1930.5 – 1989.5 MHz)

S31 Attenuation 0 – 1600 MHz dB 22 34

S31 Attenuation in Transmit 2

dB 8 13

Harmonic Band

(3701 – 3819 MHz)

Antenna Port

S33 Return Loss of Antenna Port in dB 9 9 16 9

Receive Band

(1930.5 – 1989.5 MHz)

S33 Return Loss of Antenna Port in dB 9 9 19 9

Transmit Band

(1850.5 – 1909.5 MHz)

Isolation Transmit Port to Receive Port

S21 Tx-Rx Isolation in Receive Band dB 45 45 48 45

(1930.5 – 1989.5 MHz)

S21 Tx-Rx Isolation in Transmit Band dB 54 54 58 54

(1850.5 – 1909.5 MHz)

Notes:

1. T

is the case temperature and is defined as the temperature of the underside of the Duplexer where it makes contact with the circuit

board.

2. Min/Max specifications are guaranteed at the indicated temperature with the input power to the Tx ports equal to or less than +29 dBm

over all Tx frequencies unless otherwise noted.

3. Typical data is the average value of the parameter over the indicated band at the specified temperature. Typical values may vary over time.

Refer to “Characterization” section for measurement details.

4. At Tx input power between +26 dBm and +29 dBm, the Insertion Loss at the upper edge of the Tx band (1907– 1909.5 MHz) will be slightly

degraded. From 1907 to 1909.5 MHz, the maximum Insertion Loss specification at Tc = +85°C is guaranteed to +26 dBm input power.

Absolute Maximum Ratings

[1]

Parameter Unit Value

Storage Temperature °C –65 to +125

Maximum RF Input Power dBm +33

to Tx Ports

Maximum Recommended Operating Conditions

[2]

Parameter Unit Value

Operating Temperature, Tc

[3]

, °C –40 to +100

Tx Power 29 dBm

Operating temperature, Tc

[3]

, °C –40 to +85

Tx Power 30 dBm

Notes:

1. Operation in excess of any one of these conditions may result in

permanent damage to the device.

2. The device will function over the recommended range without

degradation in reliability or permanent change in performance,

but is not guaranteed to meet electrical specifications.

3. T

is defined as case temperature, the temperature of the

underside of the Duplexer where it makes contact with the circuit

board.

Characterization

A test circuit similar to that shown in Figure 1 was used

to measure typical device performance. This circuit is

designed to interface with Air Coplanar (ACP), Ground-

Signal-Ground (GSG) RF probes of the type commonly

used to test semiconductor wafers.

The test circuit is a 7 x 7 mm PCB with a well-grounded

pad to which the device under test (DUT) is solder-

mounted.

Short lengths of 50-ohm microstripline connect the DUT

to the ACP probe patterns on the board.

A test circuit with a ACMD-7402 mounted in place is

shown in Figure 2. S-parameters are then measured

using a network analyzer and calibrated ACP probe set

Phase data for s-parameters measured with ACP probe

circuits are adjusted to place the reference plane at the

edge of the Duplexer.

Figure 1. ACP probe test circuit Figure 2. Test circuit with ACMD-7402 duplexer

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

ACMD-7402-BLK

Mfr. #:

Buy ACMD-7402-BLK

Manufacturer:

Broadcom / Avago

Description:

Signal Conditioning FBAR Duplexe

Lifecycle:

New from this manufacturer.

Delivery:

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ACMD-7402-BLK

ACMD-7402-BLK

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