SI1015-A-GM Silicon Laboratories Inc, SI1015-A-GM Datasheet - Page 178

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

Available stocks

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Part Number

Manufacturer

Quantity

Price

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Part Number:

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Part Number:

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Si1010/1/2/3/4/5

16.5. Minimizing Power Supply Noise

To minimize noise on the power supply lines, the GND/VBAT- and GND_MCU/DC- pins should be kept

separate, as shown in Figure 16.2; GND_MCU/DC- should be connected to the pc board ground plane.

The large decoupling capacitors in the input and output circuits ensure that each supply is relatively quiet

with respect to its own ground. However, connecting a circuit element "diagonally" (e.g., connecting an

external chip between VDD_MCU/DC+ and GND/VBAT-, or between VBAT and GND_MCU/DC-) can

result in high supply noise across that circuit element.

To accommodate situations in which ADC0 is sampling a signal that is referenced to one of the external

grounds, we recommend using the Analog Ground Reference (P0.1/AGND) option described in Section

5.12. This option prevents any voltage differences between the internal chip ground and the external

grounds from modulating the ADC input signal. If this option is enabled, the P0.1 pin should be tied to the

ground reference of the external analog input signal. When using the ADC with the dc-dc converter, we

also recommend enabling the SYNC bit in the DC0CN register to minimize interference.

These general guidelines provide the best performance in most applications, though some situations may

benefit from experimentation to eliminate any residual noise issues. Examples might include tying the

grounds together, using additional low-inductance decoupling caps in parallel with the recommended ones,

investigating the effects of different dc-dc converter settings, etc.

16.6. Selecting the Optimum Switch Size

The dc-dc converter has two built-in switches (the diode bypass switch and duty cycle control switch). To

maximize efficiency, one of two switch sizes may be selected. The large switches are ideal for carrying

high currents and the small switches are ideal for low current applications. The ideal switchover point to

switch from the small switches to the large switches varies with the programmed output voltage. At an out-

put voltage of 2 V, the ideal switchover point is at approximately 4 mA total output current. At an output

voltage of 3 V, the ideal switchover point is at approximately 8 mA total output current.

16.7. DC-DC Converter Clocking Options

The dc-dc converter may be clocked from its internal oscillator, or from any system clock source, select-

able by the CLKSEL bit (DC0CF.0). The dc-dc converter internal oscillator frequency is approximately

2.4 MHz. For a more accurate clock source, the system clock, or a divided version of the system clock may

be used as the dc-dc clock source. The dc-dc converter has a built in clock divider (configured using

DC0CF[6:5]) which allows any system clock frequency over 1.6 MHz to generate a valid clock in the range

of 1.6 to 3.2 MHz.

When the precision internal oscillator is selected as the system clock source, the OSCICL register may be

used to fine tune the oscillator frequency and the dc-dc converter clock. The oscillator frequency should

only be decreased since it is factory calibrated at its maximum frequency. The minimum frequency which

can be reached by the oscillator after taking into account process variations is approximately 16 MHz. The

system clock routed to the dc-dc converter clock divider also may be inverted by setting the CLKINV bit

(DC0CF.3) to logic 1. These options can be used to minimize interference in noise sensitive applications.

178

Rev. 1.0

SI1015-A-GM Silicon Laboratories Inc, SI1015-A-GM Datasheet - Page 178

SI1015-A-GM

Specifications of SI1015-A-GM

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