ACPM-7886-BLK AVAGO [AVAGO TECHNOLOGIES LIMITED], ACPM-7886-BLK Datasheet - Page 11

ACPM-7886-BLK

Manufacturer Part Number

ACPM-7886-BLK

Description

TD-SCDMA Power Amplifier

Manufacturer

AVAGO [AVAGO TECHNOLOGIES LIMITED]

Datasheet

1.ACPM-7886-BLK.pdf (14 pages)

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TD-SCDMA uses the same control technique except

that each frame is 5ms with only 7 timeslots and an

additional 75us downlink pilot and a 125us uplink pilot.

Each of the 7 slots is 675uS. For the ACPM-7886, the

Vctrl pin is used instead of Vapc. As in GSM, there is a

time mask specification that must be met, but

conformance to this spec is dictated by the Vapc ramp.

In addition to time domain specs, TD-SCDMA must

meet linearity requirement. GSM/GMSK is referred to

as constant amplitude or constant envelope

modulation, and thus the PAM is allowed to operate in

saturation. As shown in Figure 6, each time slot

supports 16 different CDMA codes with QPSK

modulation; as a result this PA must meet similar ACLR

specifications as CDMA or WCDMA.

Signaling Setup

To properly test a TD-SCDMA PA module as specified

in the TS25.102 standard, one must generate the RF

signal shown in Figure 6 along with the timing

described in the previous section.

While at the time of publication of this Application

note, Agilent Technologies did not have a TD-SCDMA

transceiver or a baseband reference module capable

of this signal generation, but it does have the E4438C

capable of generating a TD-SCDMA waveform. If used

in conjunction with Agilent Technologies E4440A

Figure 7. TD-SCDMA test setup.

Event1

ISOLATOR

RFin

Trig In

DUT

spectrum analyzer and TSM Signal Studio, all

performance tests become much simpler although,

ACLR, Gain, PAE, Idd and Spurious emission, etc. can

be measured with any spectrum analyzer.

Figure 7 shows the basic setup used to test ACPM-

7886 for TD-SCDMA. This includes DC power supply,

timing and RF signaling. In brief, the signal generator

triggers the pulse generator which in turn triggers the

spectrum analyzer and the ACPM-7886 and any other

multimeters used. The RF signal is created using Signal

Studio on a PC and downloaded to the signal generator

via GPIB.

Signal Studio

complex RF waveform shown in Figure 8. Using this

software, one can generate uplink and downlink

Dedicated Physical Channel (DPCH) signals along with

the uplink and downlink pilot signals. All 7 traffic

timeslots are supported, with up to 16 individually

configurable code channels per timeslot, for a total of

112 resource units(RU).

Signal Studio for TSM and other standards can be found

at: www.agilent.com/find/signalstudio

Figure 8 displays the main configuration window with

only 1 downlink timeslot turned on.

Out

RFout

ATTENUATOR

[2]

20dB

facilitates the construction of the

Trig In

ACPM-7886-BLK AVAGO [AVAGO TECHNOLOGIES LIMITED], ACPM-7886-BLK Datasheet - Page 11

ACPM-7886-BLK

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