SI1011-A-GM Silicon Laboratories Inc, SI1011-A-GM Datasheet - Page 264

SI1011-A-GM

Manufacturer Part Number

SI1011-A-GM

Description

IC TXRX MCU + EZRADIOPRO

Manufacturer

Silicon Laboratories Inc

Datasheets

1.SI1011-A-GM.pdf (1 pages)

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

Specifications of SI1011-A-GM

Package / Case

42-QFN

Frequency

240MHz ~ 960MHz

Data Rate - Maximum

256kbps

Modulation Or Protocol

FSK, GFSK, OOK

Applications

General Purpose

Power - Output

20dBm

Sensitivity

-121dBm

Voltage - Supply

1.8 V ~ 3.6 V

Current - Receiving

18.5mA

Current - Transmitting

85mA

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

20 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

336-1872-5

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

SI1011-A-GM

Manufacturer:

Silicon Laboratories Inc

Quantity:

135

Current page: 264 of 384
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Si1010/1/2/3/4/5

of the RFIC. In RX direct mode, the chip must still acquire bit timing during the Preamble, and thus the pre-

amble detection threshold (SPI Register 35h) must still be programmed. Once the preamble is detected,

certain bit timing functions within the RX Modem change their operation for optimized performance over

the remainder of the packet. It is not required that a Sync word be present in the packet in RX Direct mode;

however, if the Sync word is absent then the skipsyn bit in SPI Register 33h must be set, or else the bit tim-

ing and tracking function within the RX Modem will not be configured for optimum performance.

23.4.2.3. Direct Synchronous Mode

In TX direct mode, the chip may be configured for synchronous or asynchronous modes of modulation. In

direct synchronous mode, the RFIC is configured to provide a TX Clock signal as an output to the external

device that is providing the TX Data stream. This TX Clock signal is a square wave with a frequency equal

to the programmed data rate. The external modulation source (e.g., MCU) must accept this TX Clock sig-

nal as an input and respond by providing one bit of TX Data back to the RFIC, synchronous with one edge

of the TX Clock signal. In this fashion, the rate of the TX Data input stream from the external source is con-

trolled by the programmed data rate of the RFIC; no TX Data bits are made available at the input of the

RFIC until requested by another cycle of the TX Clock signal. The TX Data bits supplied by the external

source are transmitted directly in real-time (i.e., not stored internally for later transmission).

All modulation types (FSK/GFSK/OOK) are valid in TX direct synchronous mode. As will be discussed in

the next section, there are limits on modulation types in TX direct asynchronous mode.

23.4.2.4. Direct Asynchronous Mode

In TX direct asynchronous mode, the RFIC no longer controls the data rate of the TX Data input stream.

Instead, the data rate is controlled only by the external TX Data source; the RFIC simply accepts the data

applied to its TX Data input pin, at whatever rate it is supplied. This means that there is no longer a need

for a TX Clock output signal from the RFIC, as there is no synchronous "handshaking" between the RFIC

and the external data source. The TX Data bits supplied by the external source are transmitted directly in

real-time (i.e., not stored internally for later transmission).

It is not necessary to program the data rate parameter when operating in TX direct asynchronous mode.

The chip still internally samples the incoming TX Data stream to determine when edge transitions occur;

however, rather than sampling the data at a pre-programmed data rate, the chip now internally samples

the incoming TX Data stream at its maximum possible oversampling rate. This allows the chip to accu-

rately determine the timing of the bit edge transitions without prior knowledge of the data rate. (Of course,

it is still necessary to program the desired peak frequency deviation.)

Only FSK and OOK modulation types are valid in TX Direct Asynchronous Mode; GFSK modulation is not

available in asynchronous mode. This is because the RFIC does not have knowledge of the supplied data

rate, and thus cannot determine the appropriate Gaussian lowpass filter function to apply to the incoming

data.

264

Rev. 1.0

SI1011-A-GM Silicon Laboratories Inc, SI1011-A-GM Datasheet - Page 264

SI1011-A-GM

Specifications of SI1011-A-GM

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