SI4010-B1-GS Silicon Laboratories Inc, SI4010-B1-GS Datasheet - Page 35

SI4010-B1-GS

Manufacturer Part Number

SI4010-B1-GS

Description

IC TX 27-960MHZ FSK 3.6V 14SOIC

Manufacturer

Silicon Laboratories Inc

Series

EZRadio®r

Type

ISM Transmitterr

Datasheets

1.4010-DAAKF_434.pdf (2 pages)

2.SI4010-B1-GS.pdf (160 pages)

3.SI4010-C2-GS.pdf (156 pages)

Specifications of SI4010-B1-GS

Package / Case

14-SOIC (0.154", 3.90mm Width)

Frequency

27MHz ~ 960MHz

Applications

Garage Openers, RKE, Security Alarms

Modulation Or Protocol

FSK, OOK

Data Rate - Maximum

100 kBaud

Power - Output

10dBm

Current - Transmitting

19.8mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Memory Size

4kB RAM

Features

8051 MCU Core, Crystal-less Operation

Voltage - Supply

1.8 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Operating Frequency

27 MHz to 960 MHz

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Operating Supply Voltage

1.8 V to 3.6 V

Supply Current

10 mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

336-1974-5

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The Si4010 includes Silicon Laboratories' 2-wire C2 Debug and Programming interface. This debug logic

supports inspection memory, viewing and modification of special function registers (SFR), setting break

points, single stepping, and run and halt commands. All analog and digital peripherals are fully functional

while debugging using C2. The two C2 interface pins can be shared with user functions, allowing in-system

debugging without occupying package pins.

10.2. Setting Basic Si4010 Transmit Parameters

The basic transmit parameters such as output power, modulation type, data rate, and operating frequency

are set by using applications programming interface (API) function commands. When using these func-

tions certain parameters are determined by using a calculator spread sheet. The Si4010 development kit

(part number 4010-DKKF 434) includes a calculator spread sheet that helps developers set the API func-

tion arguments to meet their desired design requirements. A summary of the calculator operations are

given below and more detailed descriptions are given in the individual sections of this data sheet and in

AN370: Si4010 Software Programming Guide.

10.2.1. Package Type

The Si4010 has two package type options: 10-pin MSOP or 14-pin SOIC. The customer should choose the

package type they are using to properly model the Si4010 RF behavior.

10.2.2. Output Power

The output power of the Si4010 depends on many parameters including the antenna impedance, the out-

put impedance of the PA, the nominal varactor setting, the battery supply voltage, and the bias current of

the PA. The calculator spreadsheet can calculate the required antenna impedance needed to achieve the

desired output power or it can estimate the output power given the antenna impedance. It has the following

input parameters:

Power Setup:



Antenna Setup:



Power Target (dBm): This is the desired output power in dBm. The spreadsheet will always try and hit

this target.

Choose One of the Following: Maximize Radiated Power or Minimize PA current while Maximizing

Radiated Power. If only radiated power is to be maximized, the PA current is maximized and an

antenna impedance is found that maximizes the possible radiated power. Usually, this tends to

minimize the antenna impedance relative to the chip impedance. If the PA current is to be minimized

while still maximizing radiated power, the solution tends to equalize the antenna and on-chip

impedances. This increases the effective impedance of the system, which saves PA current at the

expense of radiation efficiency (as more power will now be consumed on-chip).

Frequency (MHz): The RF frequency of operation, range is 27 to 960 MHz.

Nominal Cap Word: This is the nominal setting of the power amplifier varactor that is part of the antenna

tuning circuit, range is 0 to 511.

External Diff Cap (pF): This is an external capacitor placed across the TXP and TXM pins. Assuming

this has a much larger quality factor than the on-chip varactor, there may be antenna efficiency

advantages of using this external component.

Q-Factor External Cap: This is the quality factor of the external capacitor. Typical values would be 250-

300.

Alpha (bLevel/deg C): The sensitivity of the antenna resistance vs temperature change. If constant

radiated power vs temperature is desired, this constant may be used to compensate the PA drive

strength. See the API section on power control.

Approx Efficiency (%): The approximate antenna efficiency used to estimate radiated power.

Rev. 0.5

Si4010

SI4010-B1-GS Silicon Laboratories Inc, SI4010-B1-GS Datasheet - Page 35

SI4010-B1-GS

Specifications of SI4010-B1-GS

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