SI4713-B30-GMR Silicon Laboratories Inc, SI4713-B30-GMR Datasheet - Page 28

SI4713-B30-GMR

Manufacturer Part Number

SI4713-B30-GMR

Description

IC TX FM RADIO RPS/RDS 20UQFN

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SI4712-B30-GMR.pdf (42 pages)

Specifications of SI4713-B30-GMR

Frequency

76MHz ~ 108MHz

Applications

General Purpose

Modulation Or Protocol

Current - Transmitting

18.8mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Voltage - Supply

2.7 V ~ 5.5 V

Package / Case

20-UQFN, 20-µQFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Power - Output

Operating Temperature

Memory Size

Data Rate - Maximum

Available stocks

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Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

SI4713-B30-GMR

Manufacturer:

SiliconL

Quantity:

2 500

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Si4712/13-B30

After the rising edge of RST, the pins, GPO1 and

GPO2/INT, are used as general-purpose output (O) pins

as described in Section “5.13. GPO Outputs”. In any

bus mode, commands may only be sent after V

5.12.1. 2-Wire Control Interface Mode

When selecting 2-wire mode, the user must ensure that

SCLK is high during the rising edge of RST, and stays

high until after the first start condition. Also, a start

condition must not occur within 300 ns before the rising

edge of RST.

2-wire bus mode uses only the SCLK and SDIO pins for

signaling. A transaction begins with the START

condition, which occurs when SDIO falls while SCLK is

high. Next, the user drives an 8-bit control word serially

on SDIO, which is captured by the device on rising

edges of SCLK. The control word consists of a seven bit

device address followed by a read/write bit (read = 1,

write = 0). The Si4712/13 acknowledges the control

word by driving SDIO low on the next falling edge of

SCLK.

Although the Si4712/13 responds to only a single

device address, this address can be changed with the

SEN pin (note that the SEN pin is not used for signaling

in 2-wire mode). When SEN = 0, the seven-bit device

address is 0010001. When SEN = 1, the address is

1100011.

For write operations, the user then sends an eight bit

data byte on SDIO, which is captured by the device on

rising edges of SCLK. The Si4712/13 acknowledges

each data byte by driving SDIO low for one cycle, on the

next falling edge of SCLK. The user may write up to

eight data bytes in a single two-wire transaction. The

first byte is a command, and the next seven bytes are

arguments.

For

acknowledged the control byte, it drives an eight-bit

data byte on SDIO, changing the state of SDIO on the

falling edge of SCLK. The user acknowledges each data

byte by driving SDIO low for one cycle, on the next

falling edge of SCLK. If a data byte is not

acknowledged, the transaction ends. The user may

read up to 16 data bytes in a single two-wire

Table 16. Bus Mode Select on Rising Edge of

Bus Mode

supplies are applied.

2-Wire

3-Wire

read

SPI

operations,

0 (must drive)

GPO1

RST

after

the

Si4712/13

1 (must drive)

GPO2/INT

and

has

Rev. 1.1

transaction. These bytes contain the response data

from the Si4712/13.

A 2-wire transaction ends with the STOP condition,

which occurs when SDIO rises while SCLK is high.

For details on timing specifications and diagrams, refer

Characteristics

Control Interface Read and Write Timing Parameters,”

on page 8, and Figure 3, “2-Wire Control Interface Read

and Write Timing Diagram,” on page 8.

5.12.2. SPI Control Interface Mode

When selecting SPI mode, the user must ensure that a

rising edge of SCLK does not occur within 300 ns

before the rising edge of RST.

SPI bus mode uses the SCLK, SDIO, and SEN pins for

read/write operations. For reads, the user can choose to

receive data from the device on either SDIO or GPO1. A

transaction begins when the user drives SEN low. The

user then pulses SCLK eight times while driving an 8-bit

control byte (MSB first) serially on SDIO. The device

captures the data on rising edges of SCLK. The control

byte must have one of these values:

0x48 = write eight command/argument bytes (user

drives write data on SDIO)

0x80 = read status byte (device drives read data on

SDIO)

0xA0 = read status byte (device drives read data on

GPO1)

0xC0 = read 16 response bytes (device drives read data

on SDIO)

0xE0 = read 16 response bytes (device drives read data

on GPO1)

When writing a command, after the control byte has

been written, the user must drive exactly eight data

bytes (a command byte and seven argument bytes) on

SDIO. The data will be captured by the device on the

rising edges of SCLK. After all eight data bytes have

been written, the user raises SEN after the last falling

edge of SCLK to end the transaction.

In any bus mode, before sending a command or reading

a response, the user must first read the status byte to

ensure that the device is ready (CTS bit is high). In SPI

mode, this is done by sending control byte 0x80 or

0xA0, followed by reading a single byte on SDIO or

GPO1. The Si4712/13 changes the state of SDIO or

GPO1 after the falling edges of SCLK. Data should be

captured by the user on the rising edges of SCLK. After

the status byte has been read, the user raises SEN after

the last falling edge of SCLK to end the transaction.

When reading a response, the user must read exactly

16 data bytes after sending the control byte. It is

Table 5,

1,2,3

,” on page 7, Figure 2, “2-Wire

“2-Wire

Control

Interface

SI4713-B30-GMR Silicon Laboratories Inc, SI4713-B30-GMR Datasheet - Page 28

SI4713-B30-GMR

Specifications of SI4713-B30-GMR

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