SI4330-B1-FMR Silicon Laboratories Inc, SI4330-B1-FMR Datasheet - Page 42

SI4330-B1-FMR

Manufacturer Part Number

SI4330-B1-FMR

Description

IC RX ISM 240-960MHZ 20VQFN

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI4330-B1-FM.pdf (64 pages)

2.SI4330-B1-FM.pdf (2 pages)

Specifications of SI4330-B1-FMR

Frequency

240MHz ~ 960MHz

Sensitivity

-121dBm

Data Rate - Maximum

256 kbps

Modulation Or Protocol

FSK, GFSK, OOK

Applications

Remote Control, RKE, Security Systems

Current - Receiving

18.5mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Features

RSSI Equipped

Voltage - Supply

1.8 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Package / Case

20-VQFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Memory Size

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Si4330-B1

8.3. General Purpose ADC

An 8-bit SAR ADC is integrated for general purpose use, as well as for digitizing the on-chip temperature sensor

reading. Registers 0Fh "ADC Configuration", 10h "Sensor Offset" and 4Fh "Amplifier Offset" can be used to

configure the ADC operation.

Every time an ADC conversion is desired, bit 7 "adcstart/adcbusy" in “Register 1Fh. Clock Recovery Gearshift

Override” must be set to 1. This is a self clearing bit that will be reset to 0 at the end of the conversion cycle of the

ADC. The conversion time for the ADC is 350 µs. After this time or when the "adcstart/adcbusy" bit is cleared, then

the ADC value may be read out of register 11h "ADC Value".

The architecture of the ADC is shown in Figure 19. The signal and reference inputs of the ADC are selected by

adcsel[2:0] and adcref[1:0] in “Register 0Fh. ADC Configuration,” respectively. The default setting is to read out the

temperature sensor using the bandgap voltage (VBG) as reference. With the VBG reference the input range of the

ADC is from 0–1.02 V with an LSB resolution of 4 mV (1.02/255). Changing the ADC reference will change the LSB

resolution accordingly.

A differential multiplexer and amplifier are provided for interfacing external bridge sensors. The gain of the amplifier

is selectable by adcgain[1:0] in Register 0Fh. The majority of sensor bridges have supply voltage (VDD) dependent

gain and offset. The reference voltage of the ADC can be changed to either V

dependent offset voltage can be added using soffs[3:0] in register 10h.

See “AN448: General Purpose ADC Configuration” for more details on the usage of the general purpose ADC.

Add

R/W

Function/Description

ADC Configuration

Sensor Offset

ADC Value

GPIO0

GPIO1

GPIO2

Temperature Sensor

(1.2V)

/ 3

/ 2

Figure 19. General Purpose ADC Architecture

adcsel [2:0]

Diff. MUX

adcstart/adcbusy

adc[7]

aoffs [4:0]

adcgain [1:0]

Diff. Amp.

adcsel[2] adcsel[1]

adc[6]

soffs [3:0]

Rev 1.0

adc[5]

adcsel [2:0]

Input MUX

adcref [1:0]

Ref MUX

adcsel[0]

adc[4]

adcref[1]

soffs[3]

ref

adc[3]

0 -1020mV / 0-255

8-bit ADC

/2 or V

adcref[0]

soffs[2]

adc[2]

adc [7:0]

adcgain[1] adcgain[0]

/3. A programmable V

soffs[1]

adc[1]

soffs[0]

adc[0]

POR Def.

00h

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SI4330-B1-FMR Silicon Laboratories Inc, SI4330-B1-FMR Datasheet - Page 42

SI4330-B1-FMR

Specifications of SI4330-B1-FMR

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