4313-T-B1_B_ANY Silicon Laboratories Inc, 4313-T-B1_B_ANY Datasheet - Page 26

4313-T-B1_B_ANY

Manufacturer Part Number

4313-T-B1_B_ANY

Description

WiFi / 802.11 Modules & Development Tools WiFi/802.11 Modules & Development Tools

Manufacturer

Silicon Laboratories Inc

Datasheet

1.4313-T-B1_B_ANY.pdf (50 pages)

Specifications of 4313-T-B1_B_ANY

Wireless Frequency

315 MHz to 915 MHz

Modulation

FSK, OOK

For Use With/related Products

Si4313

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Si4313-B1

5. Internal Functional Blocks

This section provides an overview of some of the key blocks of the internal radio architecture.

5.1. RX LNA

The input frequency range for the LNA is 240–960 MHz. The LNA provides gain with a noise figure low enough to

suppress the noise of the following stages. The LNA has one step of gain control that is controlled by the analog

gain control (AGC) algorithm. The AGC algorithm adjusts the gain of the LNA and PGA so the receiver can handle

signal levels from sensitivity to +5 dBm with optimal performance.

5.2. RX I-Q Mixer

The output of the LNA is fed internally to the input of the receive mixer. The receive mixer is implemented as an I-Q

mixer that provides both I and Q channel outputs to the programmable gain amplifier. The mixer consists of two

double-balanced mixers whose RF inputs are driven in parallel. Local oscillator (LO) inputs are driven in

quadrature, and separate I and Q Intermediate Frequency (IF) outputs drive the programmable gain amplifier. The

receive LO signal is supplied by an integrated VCO and PLL synthesizer operating between 240 and 960 MHz.

The necessary quadrature LO signals are derived from the divider at the VCO output.

5.3. Programmable Gain Amplifier

The Programmable Gain Amplifier (PGA) provides the necessary gain to boost the signal level into the dynamic

range of the ADC. The PGA must also have enough gain switching to allow for large input signals to ensure a

linear RSSI range up to –20 dBm. The PGA has steps of 3 dB that are controlled by the AGC algorithm in the

digital modem.

5.4. ADC

The amplified IQ IF signals are digitized using an Analog-to-Digital Converter (ADC), which allows for low current

consumption and high dynamic range. The band-pass response of the ADC provides exceptional rejection of out of

band blockers.

5.5. Digital Modem

Using high-performance ADCs allows channel filtering, image rejection, and demodulation to be performed in the

digital domain, resulting in reduced area while increasing flexibility. The digital modem performs the following

functions:



The digital channel filter and demodulator are optimized for ultra low power consumption and are highly

configurable. Supported modulation types are GFSK, FSK, and OOK. The channel filter can be configured to

support bandwidths ranging from 620 kHz down to 2.6 kHz. A large variety of data rates are supported ranging

from 0.123 up to 256 kbps. The AGC algorithm is implemented digitally using an advanced control loop optimized

for fast response time.

The configurable preamble detector is used to improve the reliability of the sync-word detection. The sync-word

detector is only enabled when a valid preamble is detected, significantly reducing the probability of false detection.

The received signal strength indicator (RSSI) provides a measure of the signal strength received on the tuned

channel. The resolution of the RSSI is 0.5 dB. This high resolution RSSI enables accurate channel power

measurements for clear channel assessment (CCA), and carrier sense (CS), and listen before talk (LBT)

functionality.

Channel selection filter

TX modulation

RX demodulation

AGC

Preamble detector

Invalid preamble detector

Radio signal strength indicator (RSSI)

Automatic frequency compensation (AFC)

Rev. 1.0

4313-T-B1_B_ANY Silicon Laboratories Inc, 4313-T-B1_B_ANY Datasheet - Page 26

4313-T-B1_B_ANY

Specifications of 4313-T-B1_B_ANY

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