CXG1190EQ Datasheet, PDF(1/2 Page) List of Unclassifed Manufacturers – GSM/UMTS Dual Mode Terminal Ultralow Loss Antenna Switch Module

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CXG1190EQ Datasheet, PDF (1/2 Pages) List of Unclassifed Manufacturers – GSM/UMTS Dual Mode Terminal Ultralow Loss Antenna Switch Module

GSM/UMTS Dual Mode Terminal Ultralow Loss Antenna Switch Module

CXG1190EQ/AEQ

Portable telephone terminals are seeing rapid advances in functional-

ity as easily handheld devices.

The third generation cellular phone service is poised to take off on a

worldwide scale.

The CXG1190EQ/AEQ are antenna switching modules that support dual

mode operation for both GSM, which holds an large share worldwide,

and UMTS, which is the third generation cellular phone standard.

In addition to both multiband and multimode support, the CXG1190EQ/

AEQ are high-performance lead frame modules that achieve low inser-

tion loss and a miniature low-height form factor.

These modules support the creation of wireless equipment that remains

one step ahead using Sonyâs MMIC technologies.

I Ultralow insertion loss: 0.9 dB in the

DCS/PCS Tx path and 0.65 dB in the

UMTS (Rx) path

I Dual low-pass filters:

Attenuation 30 dB typical

(GSM Tx 2fo, DCS/PCS Tx 2fo)

I Lead frame module that adopts a mold

array package

I Miniature low-height package:

LQFN-28P-01

(4.5 mm Ã 3.2 mm Ã 1.3 mm max.)

Switching Structure that

Achieves Low Insertion Loss

Insertion loss is an important index for

switch performance.

Switch modules using the conventional

LTCC* substrate adopted a structure in

which the frequency band was divided into

a low band (900 MHz band) and a high

band (1800/1900 MHz band) using a

diplexer, and after that, the path switches

were connected. (See figure 1.) The switch

structure adopted by Sony in these prod-

ucts is the SP7T structure. A low-pass

filter is inserted in the GSM Tx path. (See

figure 2.) In the conventional LTCC mod-

ule structure, the insertion loss for all of

the paths was the sum of the diplexer and

the path switches themselves. As a result,

the overall loss was quite large.

In contrast, in the SP7T structure, only the

switch insertion loss occurs in the paths

VOICE

The CXG1190EQ/AEQ ICs could

only have been developed by

Sony, and were developed from

Sonyâs unique perspective, a per-

spective unknown at other compa-

nies. These devices are already

earning an enthusiastic response

in the market. We are now plan-

ning new products that deploy this

technology. Keep your eye on

Sonyâs MMIC technologies!

other than the GSM Tx path, thus achiev-

ing low loss. For the GSM Tx path, the

SP7T + LPF structure can achieve lower

loss than the diplexer structure since a LPF

has smaller insertion loss than a diplexer.

Furthermore, these devices achieve

ultralow loss by using Sonyâs unique

JPHEMT process. This contributes sig-

nificantly to reduced current consumption

during Tx and higher Rx sensitivity.

*: LTCC: Low temperature co-fired ceramic

Lead Frame Module

Conventional antenna switch modules

used in GSM terminals and other prod-

ucts adopt a structure in which passive and

active elements, such as PIN diodes, are

mounted on an LTCC, FR-4 or similar

substrate. However, considering the

demands for multimode and multiband op-

eration, miniature low-height form factors,

and lower costs in recent cellular phone

products, it can easily be seen that it will

be difficult to achieve these using these

conventional structures. Sonyâs response

to these issues was implemented using the

mold array package, which uses lead

frames, an existing package technology.

By adopting an existing package that uses

lead frames, Sony was able to assure the

pin count required for the increase in the

number of switches due to the use of

multimode and multiband operation. Fur-

thermore, this made further miniaturiza-

tion easy.

Another advantage was that it was pos-

sible to keep to an absolute minimum the

number of changes to the assembly pro-

cess in current manufacturing lines. This

contributes to lowering the cost of the de-

vices. Since handling is only required for

two simple components, an IC and a low-

pass filter, Sony was able to shorten the

development turn around time. Also, the

adoption of a package with a proven track

record in the market has the advantage that

customers can use these devices with con-

fidence.

Miniature Low-Height Form

Factor

The mounting area was reduced by mak-

ing the two low-pass filters integrated in

the two Tx paths into one component

using LTCC technology. Also, etching

technology can be used to perform com-

plicated machining on the lead frame,

which plays the role of interface between

the internal components. That technology

is used for the connections for the inter-

nal low-pass filters in these products. Fur-

thermore, Sony optimized the contact area

between the internal low-pass filter lands

and the lead frame and also optimized the

mold sealing thickness above the low-pass

filters, thus achieving a miniature low-

height form factor.

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