CYRF6936-40LFXC Cypress Semiconductor Corp, CYRF6936-40LFXC Datasheet - Page 7

CYRF6936-40LFXC

Manufacturer Part Number

CYRF6936-40LFXC

Description

IC WIRELESS USB LP 40VQFN

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.CYRF6936-40LFXC.pdf (23 pages)

Specifications of CYRF6936-40LFXC

Frequency

2.4GHz

Data Rate - Maximum

1Mbps

Modulation Or Protocol

DSSS, GFSK

Applications

Remote Control

Power - Output

4dBm

Sensitivity

-97dBm

Voltage - Supply

1.8 V ~ 3.6 V

Current - Receiving

21.2mA

Current - Transmitting

34mA

Data Interface

PCB, Surface Mount

Antenna Connector

PCB, Surface Mount

Operating Temperature

0°C ~ 70°C

Package / Case

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

Interface

SPI

Termination Type

SMD

Bandwidth

876kHz

Supply Voltage Max

3.6V

Data Rate Max

1000Kbps

Frequency Band Type

ISM

Features

Frequency Band Range

2.400 - 2.483 GHz

Supply Voltage Min

2.4V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Memory Size

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

428-2024
CYRF6936-40LFXC

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Interrupts

The device provides an interrupt (IRQ) output, which is

configurable to indicate the occurrence of various different

events. The IRQ pin may be programmed to be either active

HIGH or active LOW, and be either a CMOS or open drain output.

The available interrupts are described in the section

on page 13.

The CYRF6936 IC features three sets of interrupts: transmit,

receive, and system interrupts. These interrupts all share a

single pin (IRQ), but can be independently enabled or disabled.

The contents of the enable registers are preserved when

switching between transmit and receive modes.

If more than one interrupt is enabled at any time, it is necessary

to read the relevant status register to determine which event

caused the IRQ pin to assert. Even when a given interrupt source

is disabled, the status of the condition that would otherwise

cause an interrupt can be determined by reading the appropriate

status register. It is therefore possible to use the devices without

the IRQ pin, by polling the status registers to wait for an event,

rather than using the IRQ pin.

Clocks

A 12 MHz crystal (30 ppm or better) is directly connected

between XTAL and GND without the need for external

capacitors. A digital clock out function is provided, with

selectable output frequencies of 0.75, 1.5, 3, 6, or 12 MHz. This

output may be used to clock an external microcontroller (MCU)

or ASIC. This output is enabled by default, but may be disabled.

The requirements to directly connect the crystal to the XTAL pin

and GND are:

■

Power Management

The operating voltage of the device is 1.8V to 3.6V DC, which is

applied to the V

static sleep mode by writing to the FRC END = 1 and

END STATE = 000 bits in the XACT_CFG_ADR register over the

SPI interface. The device enters sleep mode within 35 µs after

the last SCK positive edge at the end of this SPI transaction.

Alternatively, the device may be configured to automatically

enter sleep mode after completing the packet transmission or

reception. When in sleep mode, the on-chip oscillator is stopped,

but the SPI interface remains functional. The device wakes from

sleep mode automatically when the device is commanded to

enter transmit or receive mode. When resuming from sleep

mode, there is a short delay while the oscillator restarts. The

device can be configured to assert the IRQ pin when the

oscillator has stabilized.

Document #: 38-16015 Rev. *H

Nominal Frequency: 12 MHz

Operating Mode: Fundamental Mode

Resonance Mode: Parallel Resonant

Frequency Stability: ±30 ppm

Series Resistance: <60 ohms

Load Capacitance: 10 pF

Drive Level: 100 µW

BAT

pin. The device can be shut down to a fully

Registers

The output voltage (V

(PMU) is configurable to several minimum values between 2.4V

and 2.7V. V

load) to external devices. It is possible to disable the PMU and

provide an externally regulated DC supply voltage to the device’s

main supply in the range 2.4V to 3.6V. The PMU also provides a

regulated 1.8V supply to the logic.

The PMU is designed to provide high boost efficiency (74–85%

depending on input voltage, output voltage, and load) when

using a Schottky diode and power inductor, eliminating the need

for an external boost converter in many systems where other

components require a boosted voltage. However, reasonable

efficiencies (69–82% depending on input voltage, output voltage,

and load) may be achieved when using low cost components

such as SOT23 diodes and 0805 inductors.

The current through the diode must stay within the linear

operating range of the diode. For some loads the SOT23 diode

is sufficient, but with higher loads it is not and an SS12 diode

must be used to stay within this linear range of operation. Along

with the diode, the inductor used must not saturate its core. In

higher loads, a lower resistance/higher saturation coil such as

the inductor from Sumida must be used.

The PMU also provides a configurable low battery detection

function, which may be read over the SPI interface. One of seven

thresholds between 1.8V and 2.7V may be selected. The

interrupt pin may be configured to assert when the voltage on the

latched event. Battery monitoring is disabled when the device is

in sleep mode.

Low Noise Amplifier and Received Signal Strength

Indication

The gain of the receiver can be controlled directly by clearing the

AGC EN bit and writing to the Low Noise Amplifier (LNA) bit of

the RX_CFG_ADR register. Clearing the LNA bit reduces the

receiver gain approximately 20 dB, allowing accurate reception

of very strong received signals (for example, when operating a

receiver very close to the transmitter). Approximately 30 dB of

receiver attenuation can be added by setting the Attenuation

(ATT) bit. This limits data reception to devices at very short

ranges. Disabling AGC and enabling LNA is recommended,

unless receiving from a device using external PA.

When the device is in receive mode the RSSI_ADR register

returns the relative signal strength of the on-channel signal

power.

When receiving, the device automatically measures and stores

the relative strength of the signal being received as a five bit

value. An RSSI reading is taken automatically when the SoP is

detected. In addition, a new RSSI reading is taken every time the

previous reading is read from the RSSI_ADR register, allowing

the background RF energy level on any given channel to be

easily measured when RSSI is read while no signal is being

received. A new reading can occur as fast as once every 12 µs.

BAT

pin falls below the configured threshold. LV IRQ is not a

REG

may be used to provide up to 15 mA (average

REG

) of the Power Management Unit

CYRF6936

Page 7 of 23

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CYRF6936-40LFXC Cypress Semiconductor Corp, CYRF6936-40LFXC Datasheet - Page 7

CYRF6936-40LFXC

Specifications of CYRF6936-40LFXC

Available stocks

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