SI4730-C40-GMR Silicon Laboratories Inc, SI4730-C40-GMR Datasheet - Page 21

SI4730-C40-GMR

Manufacturer Part Number

SI4730-C40-GMR

Description

IC RX AM/FM RADIO WORLD 20UQFN

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI4731-C-EVB.pdf (42 pages)

Specifications of SI4730-C40-GMR

Frequency

520kHz ~ 1.71MHz, 64MHz ~ 108MHz

Modulation Or Protocol

AM, FM

Applications

General Purpose

Current - Receiving

19.9mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-20°C ~ 85°C

Package / Case

20-UQFN, 20-µQFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Sensitivity

Memory Size

Data Rate - Maximum

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

SI4730-C40-GMR

Manufacturer:

SILICON LABS/芯科

Quantity:

20 000

Current page: 21 of 42
Download datasheet (365Kb)

In the analog audio output mode, ROUT and LOUT are

used for the audio output pins. In the digital audio mode,

DOUT, DFS, and DCLK pins are used. Concurrent

analog/digital audio output mode is also available

requiring all five pins. The receiver mode and the audio

output mode are set by the POWER_UP command

listed in Table 14, “Selected Si473x Commands,” on

page 26.

5.3. FM Receiver

The Si4730/31 FM receiver is based on the proven

Si4700/01 FM tuner. The receiver uses a digital low-IF

architecture

components and factory adjustments. The Si4730/31

integrates a low noise amplifier (LNA) supporting the

worldwide FM broadcast band (64 to 108 MHz). An

AGC circuit controls the gain of the LNA to optimize

sensitivity and rejection of strong interferers. An image-

reject mixer downconverts the RF signal to low-IF. The

quadrature mixer output is amplified, filtered, and

digitized

converters (ADCs). This advanced architecture allows

the Si4730/31 to perform channel selection, FM

demodulation, and stereo audio processing to achieve

superior performance compared to traditional analog

architectures.

5.4. AM Receiver

The highly-integrated Si4730/31 supports worldwide AM

band reception from 520 to 1710 kHz using a digital

low-IF architecture with a minimum number of external

components and no manual alignment required. This

digital low-IF architecture allows for high-precision

filtering offering excellent selectivity and SNR with

minimum variation across the AM band. The DSP also

provides adjustable channel step sizes in 1 kHz

increments, AM demodulation, soft mute, seven

different channel bandwidth filters, and additional

features, such as a programmable automatic volume

control (AVC) maximum gain allowing users to adjust

the level of background noise. Similar to the FM

receiver, the integrated LNA and AGC optimize

sensitivity and rejection of strong interferers allowing

better reception of weak stations.

The Si4730/31 provides highly-accurate digital AM

tuning without factory adjustments. To offer maximum

flexibility, the receiver supports a wide range of ferrite

loop sticks from 180–450 µH. An air loop antenna is

supported by using a transformer to increase the

effective inductance from the air loop. Using a 1:5 turn

ratio inductor, the inductance is increased by 25 times

and easily supports all typical AM air loop antennas

which generally vary between 10 and 20 µH.

with

allowing

high

the

resolution

elimination

analog-to-digital

external

Rev. 1.0

5.5. Digital Audio Interface (Si4731 Only)

The digital audio interface operates in slave mode and

supports three different audio data formats:



5.5.1. Audio Data Formats

In I

second rising edge of DCLK following each DFS

transition. The remaining bits of the word are sent in

order, down to the LSB. The left channel is transferred

first when the DFS is low, and the right channel is

transferred when the DFS is high.

In Left-Justified mode, by default the MSB is captured

on the first rising edge of DCLK following each DFS

transition. The remaining bits of the word are sent in

order, down to the LSB. The left channel is transferred

first when the DFS is high, and the right channel is

transferred when the DFS is low.

In DSP mode, the DFS becomes a pulse with a width of

1DCLK period. The left channel is transferred first,

followed right away by the right channel. There are two

options in transferring the digital audio data in DSP

mode: the MSB of the left channel can be transferred on

the first rising edge of DCLK following the DFS pulse or

on the second rising edge.

In all audio formats, depending on the word size, DCLK

frequency and sample rates, there may be unused

DCLK cycles after the LSB of each word before the next

DFS transition and MSB of the next word. In addition, if

preferred, the user can configure the MSB to be

captured on the falling edge of DCLK via properties.

The number of audio bits can be configured for 8, 16,

20, or 24 bits.

5.5.2. Audio Sample Rates

The device supports a number of industry-standard

sampling rates including 32, 40, 44.1, and 48 kHz. The

digital audio interface enables low-power operation by

eliminating the need for redundant DACs on the audio

baseband processor.

Left-Justified

DSP Mode

S mode, by default the MSB is captured on the

Si4730/31-C40

SI4730-C40-GMR Silicon Laboratories Inc, SI4730-C40-GMR Datasheet - Page 21

SI4730-C40-GMR

Specifications of SI4730-C40-GMR

Available stocks

Related parts for SI4730-C40-GMR