RFM23 Datasheet, PDF(35/152 Page)

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

RFM23 Datasheet, PDF (35/152 Pages) –

◁

Figure 15. PLL Synthesizer Block Diagram

RFM23

The reference frequency to the PLL is 10 MHz. The PLL utilizes a differential L-C VCO, with integrated on-chip spiral

inductors. The output of the VCO is followed by a configurable divider which will divide down the signal to the desired

output frequency band. The modulus of this divider stage is controlled dynamically by the output from the Î-Î£ modulator.

The tuning resolution of the Î-Î£ modulator is determined largely by the over-sampling rate and the number of bits carried

internally. The tuning resolution is sufficient to tune to the commanded frequency with a maximum accuracy of 312.5 Hz

anywhere in the range between 240â930 MHz.

5.6.1. VCO

The output of the VCO is automatically divided down to the correct output frequency depending on the hbsel and

fb[4:0] fields in "Register 75h. Frequency Band Select". A 2X VCO is utilized to help avoid problems due to

frequency pulling, especially when turning on the integrated Power Amplifier. In receive mode, the LO frequency is

automatically shifted downwards (without reprogramming) by the IF frequency of 937.5 kHz, allowing transmit and

receive operation on the same frequency. The VCO integrates the resonator inductor, tuning varactor, so no

external VCO components are required.

The VCO uses capacitance bank to cover the wide frequency range specified. The capacitance bank will

automatically be calibrated every time the synthesizer is enabled. In certain fast hopping applications this might not

be desirable so the VCO calibration may be skipped by setting the appropriate register.

5.7. Power Amplifier

The RFM23 contains an internal integrated power amplifier (PA) capable of transmitting at output levels between â8

to +13 dBm. The output power is programmable in 3 dB steps through the txpow[2:0] field in "Register 6Dh. TX

Power".

The PA design is single-ended and is implemented as a two stage class CE amplifier with efficiency in the range of

45â50% while transmitting at maximum power. The efficiency drops to approximately 20% when operating at the

lowest power steps. Due to the high efficiency a simple filter is required on the board to filter the harmonics. The PA

output is ramped up and down to prevent unwanted spectral splatter.

5.7.1. Output Power Selection

The output power is configurable in 3 dB steps from â8 to +13 dBm with the txpow[2:0] field in "Register 6Dh. TX

Power". The PA output is ramped up and down to prevent unwanted spectral splatter.

Extra output power can allow use of a cheaper smaller antenna, greatly reducing the overall BOM cost. The higher

power setting of the module achieves maximum possible range, but of course comes at the cost of higher TX current

consumption. However, depending on the duty cycle of the system, the effect on battery life may be insignificant.

Contact HopeRF Support for help in evaluating this tradeoff.

Add R/W Function/Description D7 D6 D5 D4 D3 D2

POR Def.

6D R/W

TX Power

txpow[2] txpow[1] txpow[0]

07h

txpow[2:0]

000

001

010

011

100

101

110

RF43 Output Power

â8 dBm

â5 dBm

â2 dBm

+1 dBm

+4 dBm

+7 dBm

+10 dBm

Tel: +86-755-82973805 Fax: +86-755-82973550 E-mail: sales@hoperf.com http://www.hoperf.com

▷