SI1015-A-GM Silicon Laboratories Inc, SI1015-A-GM Datasheet - Page 304

SI1015-A-GM

Manufacturer Part Number

SI1015-A-GM

Description

IC TXRX MCU + EZRADIOPRO

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI1015-A-GM.pdf (1 pages)

2.SI1014-A-GM.pdf (384 pages)

Specifications of SI1015-A-GM

Package / Case

42-QFN

Frequency

240MHz ~ 960MHz

Data Rate - Maximum

256kbps

Modulation Or Protocol

FSK, GFSK, OOK

Applications

General Purpose

Power - Output

13dBm

Sensitivity

-121dBm

Voltage - Supply

0.9 V ~ 3.6 V

Current - Receiving

18.5mA

Current - Transmitting

30mA

Data Interface

PCB, Surface Mount

Memory Size

8kB Flash, 768B RAM

Antenna Connector

PCB, Surface Mount

Number Of Receivers

Number Of Transmitters

Wireless Frequency

240 MHz to 960 MHz

Interface Type

UART, SMBus, SPI, PCA

Output Power

13 dBm

Operating Supply Voltage

0.9 V to 3.6 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Maximum Supply Current

4 mA

Minimum Operating Temperature

- 40 C

Modulation

FSK, GFSK, OOK

Protocol Supported

C2, SMBus

Core

8051

Program Memory Type

Flash

Program Memory Size

8 KB

Data Ram Size

768 B

Supply Current (max)

4 mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Operating Temperature

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

336-1868-5

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Si1010/1/2/3/4/5

24.4.2. SMB0CN Control Register

SMB0CN is used to control the interface and to provide status information (see SFR Definition 24.2). The

higher four bits of SMB0CN (MASTER, TXMODE, STA, and STO) form a status vector that can be used to

jump to service routines. MASTER indicates whether a device is the master or slave during the current

transfer. TXMODE indicates whether the device is transmitting or receiving data for the current byte.

STA and STO indicate that a START and/or STOP has been detected or generated since the last SMBus

interrupt. STA and STO are also used to generate START and STOP conditions when operating as a mas-

ter. Writing a 1 to STA will cause the SMBus interface to enter Master Mode and generate a START when

the bus becomes free (STA is not cleared by hardware after the START is generated). Writing a 1 to STO

while in Master Mode will cause the interface to generate a STOP and end the current transfer after the

next ACK cycle. If STO and STA are both set (while in Master Mode), a STOP followed by a START will be

generated.

The ARBLOST bit indicates that the interface has lost an arbitration. This may occur anytime the interface

is transmitting (master or slave). A lost arbitration while operating as a slave indicates a bus error condi-

tion. ARBLOST is cleared by hardware each time SI is cleared.

The SI bit (SMBus Interrupt Flag) is set at the beginning and end of each transfer, after each byte frame, or

when an arbitration is lost; see Table 24.3 for more details.

Important Note About the SI Bit: The SMBus interface is stalled while SI is set; thus SCL is held low, and

the bus is stalled until software clears SI.

24.4.2.1. Software ACK Generation

When the EHACK bit in register SMB0ADM is cleared to 0, the firmware on the device must detect incom-

ing slave addresses and ACK or NACK the slave address and incoming data bytes. As a receiver, writing

the ACK bit defines the outgoing ACK value; as a transmitter, reading the ACK bit indicates the value

received during the last ACK cycle. ACKRQ is set each time a byte is received, indicating that an outgoing

ACK value is needed. When ACKRQ is set, software should write the desired outgoing value to the ACK

bit before clearing SI. A NACK will be generated if software does not write the ACK bit before clearing SI.

SDA will reflect the defined ACK value immediately following a write to the ACK bit; however SCL will

remain low until SI is cleared. If a received slave address is not acknowledged, further slave events will be

ignored until the next START is detected.

24.4.2.2. Hardware ACK Generation

When the EHACK bit in register SMB0ADM is set to 1, automatic slave address recognition and ACK gen-

eration is enabled. More detail about automatic slave address recognition can be found in Section 24.4.3.

As a receiver, the value currently specified by the ACK bit will be automatically sent on the bus during the

ACK cycle of an incoming data byte. As a transmitter, reading the ACK bit indicates the value received on

the last ACK cycle. The ACKRQ bit is not used when hardware ACK generation is enabled. If a received

slave address is NACKed by hardware, further slave events will be ignored until the next START is

detected, and no interrupt will be generated.

Table 24.3 lists all sources for hardware changes to the SMB0CN bits. Refer to Table 24.5 for SMBus sta-

tus decoding using the SMB0CN register.

304

Rev. 1.0

SI1015-A-GM Silicon Laboratories Inc, SI1015-A-GM Datasheet - Page 304

SI1015-A-GM

Specifications of SI1015-A-GM

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