CYRF7936-40LFXC Cypress Semiconductor Corp, CYRF7936-40LFXC Datasheet - Page 5

CYRF7936-40LFXC

Manufacturer Part Number

CYRF7936-40LFXC

Description

IC CYFI TRANSCEIVER 40VQFN

Manufacturer

Cypress Semiconductor Corp

Series

CyFi™r

Datasheets

1.CYRF7936-40LFXC.pdf (21 pages)

2.CYRF7936-40LFXC.pdf (8 pages)

Specifications of CYRF7936-40LFXC

Package / Case

40-VQFN Exposed Pad, 40-HVQFN, 40-SQFN, 40-DHVQFN

Frequency

2.4GHz

Data Rate - Maximum

1Mbps

Modulation Or Protocol

DSSS

Voltage - Supply

1.8 V ~ 3.6 V

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Operating Temperature

0°C ~ 70°C

Interface Type

SPI

Output Power

+ 4 dBm

Operating Supply Voltage

1.8 V to 3.6 V

Maximum Operating Temperature

+ 70 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

0 C

Modulation

DSSS, GFSK

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Applications

Sensitivity

Memory Size

Current - Transmitting

Current - Receiving

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

428-2273

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Functional Block Overview

2.4 GHz CyFi Radio Modem

The CyFi radio Modem is a dual conversion low IF architecture

optimized for power, range, and robustness. The CyFi radio

modem employs channel-matched filters to achieve high

performance in the presence of interference. An integrated

Power Amplifier (PA) provides up to +4 dBm transmit power, with

an output power control range of 34 dB in seven steps. The

supply current of the device is reduced as the RF output power

is reduced.

Table 2. Internal PA Output Power Step Table

Frequency Synthesizer

Before transmission or reception may begin, the frequency

synthesizer must settle. The settling time varies depending on

channel; 25 fast channels are provided with a maximum settling

time of 100 µs.

The ‘fast channels’ (less than 100 µs settling time) are every third

channel, starting at 0 up to and including 72 (for example, 0, 3,

6, 9 …. 69, 72).

Baseband and Framer

The baseband and framer blocks provide the DSSS encoding

and decoding, SOP generation and reception, CRC16

generation and checking, and EOP detection and length field.

Packet Buffers and Radio Configuration Registers

Packet data and configuration registers are accessed through

the SPI interface. All configuration registers are directly

addressed through the address field in the SPI packet.

Configuration registers allow configuration of DSSS PN codes,

data rate, operating mode, interrupt masks, interrupt status, and

so on.

SPI Interface

The

communication between an application MCU and one or more

slave devices (including the CYRF7936). The SPI interface

supports single-byte and multi-byte serial transfers using either

4-pin or 3-pin interfacing. The SPI communications interface

consists of Slave Select (SS#), Serial Clock (SCK), Master

Out-Slave In (MOSI), Master In-Slave Out (MISO), or Serial Data

(SDAT).

Document Number: 001-48013 Rev*A

CYRF7936

PA Setting

has

Typical Output Power (dBm)

SPI

interface

–13

–18

–24

–30

–35

–5

supporting

SPI communication may be described as the following:

■

The device receives SCK from an application MCU on the SCK

pin. Data from the application MCU is shifted in on the MOSI pin.

Data to the application MCU is shifted out on the MISO pin. The

active LOW Slave Select (SS#) pin must be asserted to initiate

an SPI transfer.

The application MCU can initiate SPI data transfers using a

multibyte transaction. The first byte is the Command/Address

byte, and the following bytes are the data bytes shown in

Figure 4

The SPI communications interface has a burst mechanism,

where the first byte can be followed by as many data bytes as

required. A burst transaction is terminated by deasserting the

slave select (SS# = 1).

The SPI communications interface single read and burst read

sequences are shown in

respectively.

The SPI communications interface single write and burst write

sequences are shown in

respectively.

This interface may be optionally operated in a 3-pin mode with

the MISO and MOSI functions combined in a single bidirectional

data pin (SDAT). When using 3-pin mode, user firmware must

ensure that the MOSI pin on the MCU is in a high impedance

state except when MOSI is actively transmitting data.

The device registers may be written to or read from one byte at

a time, or several sequential register locations may be written or

read in a single SPI transaction using incrementing burst mode.

In addition to single byte configuration registers, the device

includes register files. Register files are FIFOs written to and

read from using nonincrementing burst SPI transactions.

The IRQ pin function may be optionally multiplexed onto the

MOSI pin. When this option is enabled, the IRQ function is not

available while the SS# pin is LOW. When using this

configuration, user firmware must ensure that the MOSI pin on

the MCU is in a high impedance state whenever the SS# pin is

HIGH.

The SPI interface is not dependent on the internal 12 MHz clock.

Registers may therefore be read from or written to when the

device is in sleep mode, and the 12 MHz oscillator disabled.

The SPI interface and the IRQ and RST pins have a separate

voltage reference pin (V

directly to MCUs operating at voltages below the CYRF7936 IC

supply voltage.

Command Direction (bit 7) = ‘1’ enables SPI write transaction.

When it equals a ‘0’, it enables SPI read transactions.

Command Increment (bit 6) = ‘1’ enables SPI auto address

increment. When set, the address field automatically

increments at the end of each data byte in a burst access.

Otherwise the same address is accessed.

Six bits of address

Eight bits of data

through

Figure 7

). This enables the device to interface

on page 6.

Figure 5

Figure 7

and

Figure 6

Figure 8

CYRF7936

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