CMX991 Datasheet, PDF(42/56 Page) CML Microcircuits

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CMX991 Datasheet, PDF (42/56 Pages) CML Microcircuits – Two-mode demodulator

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RF Quadrature Transceiver / RF Quadrature Receiver

CMX991/CMX992

The half IF response of the CMX991/CMX992 is dependent on the output matching of the 1st mixer. The

arrangements described in 7.4 should be applied and matching can be optimised for a particular design.

The half IF performance has some variability between devices and care needs to be taken to ensure

sufficient margin exits for device variations, a standard deviation of 1.9 may be used for such calculations.

7.10 Receiver I/Q Filters

Two filtering modes are selectable using the âI/Q Filterâ bit (b5 of the Rx Mode Register, $13). The default

setting of the âI/Q Filterâ bit is â0â and in this case the I/Q output bandwidth is limited to about 100kHz. With

the âI/Q Filterâ bit set to â1â the I/Q output has a bandwidth of approximately 1MHz. Typical frequency

responses for the two modes are shown in Figure 27.

-10

-20

-30

-40

-50

-60

-70

-80

100kHz Mode

1MHz Mode

100

1000

Frequency / kHz

10000

Figure 27 Typical Receiver I/Q Frequency Response

7.11 Modulation Accuracy

Note: This section applies only to the CMX991.

To check the phase error of the transmitter, a CMX910 Evaluation Kit (EV9100) was used to drive the Tx

I/Q modulator differentially with GMSK. This setup tested 9.6kbps GMSK with a BT of 0.4, to fit in a 25kHz

channel. The plot in Figure 28 shows the Tx Output ACP performance as ~77dBc and Table 20 shows the

RMS phase error as being less than 1 degree (~0.8 degrees). The differential output level from the

EV9100 is 2Vp-p, therefore the 0dB I/Q gain setting was used.

ï£ 2015 CML Microsystems Plc

D/991_992/20

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