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| cyrf7936 2.4-ghz cyfi? transceiver cypress semiconductor corporation ? 198 champion court ? san jose , ca 95134-1709 ? 408-943-2600 document #: 001-48013 rev. *g revised may 8, 2012 features 2.4-ghz direct sequence spread spectrum (dsss) radio transceiver operates in the unlicensed worldwide industrial, scientific, and medical (ism) band (2.400 ghz to 2.483 ghz) 21-ma operating current (transmit at ?5 dbm) transmit power up to +4 dbm receive sensitivity up to ?97 dbm sleep current less than 1 a dsss data rates up to 250 kbps, gaussian frequency-shift keying (gfsk) data rate of 1 mbps low external component count auto transaction sequencer (ats) - no mcu intervention framing, length, crc16, and auto acknowledge (ack) power management unit (pmu) for mcu fast startup and fast channel changes separate 16 byte transmit and receive fifos dynamic data rate reception receive signal strength indication (rssi) serial peripheral interface (spi) control while in sleep mode 4-mhz spi microcontroller interface battery voltage monitoring circuitry supports coin-cell operated applications operating voltage from 1.8 v to 3.6 v operating temperature from 0 c to 70 c space saving 40-pin qfn 6 6 mm package applications wireless sensor networks wireless actuator control home automation white goods commercial building automation automatic meter readers precision agriculture remote controls consumer electronics personal health and fitness to y s applications support the cyrf7936 cyfi? transceiver is a radio ic designed for low power embedded wireless applications. it can be used only with cypress?s psoc programmable system-on-chip. combined with the psoc and a cyfi network protocol stack, cyrf7936 can be used to implement a comp lete cyfi wireless system. see www.cypress.com for development tools, reference designs, and application notes. logic block diagram l/d v reg v dd data interface and sequencer dsss baseband & framer gfsk modulator gfsk demodulator rssi xtal osc synthesizer pmu spi v io rf bias rf n rf p gnd xout xtal rst mosi miso sck irq v bat v cc pactl ss# cyfi radio modem
cyrf7936 document #: 001-48013 rev. *g page 2 of 23 contents pinouts .............................................................................. 3 functional overview ........................................................ 4 data transmission modes ........................................... 4 packet framing ........................................................... 4 packet buffers ............................................................. 5 auto transaction sequencer (ats) ............................ 5 data rates .................................................................. 5 functional block overview .............................................. 6 2.4-ghz cyfi radio modem ....................................... 6 frequency synthesizer ................................................ 6 baseband and framer ................................................. 6 packet buffers and radio configuration registers ..... 6 spi interface ................................................................ 6 interrupts ..................................................................... 8 clocks ............ .............. .............. .............. ........... ......... 8 power management ............... .............. .............. ......... 8 receiver front end ..................................................... 8 receive spurious response .. ..................................... 9 application examples ...................................................... 9 absolute maximum ratings .......................................... 13 operating conditions ..................................................... 13 dc characteristics ......................................................... 13 ac characteristics ......................................................... 14 rf characteristics .......................................................... 15 typical operating characteristics ................................ 17 ordering information ...................................................... 19 ordering code definition .... ....................................... 19 package description ...................................................... 20 document conventions ................................................. 21 acronyms .................................................................. 21 units of measure. ...................................................... 21 document history page ................................................. 22 sales, solutions, and legal information ...................... 23 worldwide sales and design s upport ......... .............. 23 products .................................................................... 23 psoc solutions ......................................................... 23 cyrf7936 document #: 001-48013 rev. *g page 3 of 23 pinouts figure 1. pin diagram - cyrf7936 40-pin qfn rf bias nc nc v bat2 v cc v bat1 xtal v cc nc nc v reg nc nc v bat0 l/d nc nc v io v dd rst rf n nc nc v cc nc nc resv nc gnd rf p nc ss sck irq / gpio mosi / sdat miso / gpio xout / gpio pactl / gpio nc nc * e- pad bottom side 21 22 23 24 25 26 27 28 29 30 11 12 13 14 15 16 17 18 19 20 10 9 8 7 6 5 4 3 2 40 39 38 37 36 35 34 33 32 31 1 cyrf7936 cyfi transciever 40 lead qfn corner tabs table 1. pin description - cyrf7936 40-pin qfn pin number name type default description 1 xtal i i 12-mhz crystal 2, 4, 5, 9, 14, 15, 17, 18, 20, 21, 22, 23, 31, 32, 36, 39 nc nc connect to gnd 3, 7, 16 v cc pwr v cc = 2.4 v to 3.6 v. typically connected to v reg . 6, 8, 38 v bat(0-2) pwr v bat = 1.8 v to 3.6 v. main supply. 10 rf bias o o rf i/o 1.8 v reference voltage 11 rf p i/o i differential rf signal to and from antenna 12 gnd gnd ground 13 rf n i/o i differential rf signal to and from antenna 19 resv i must be connected to gnd 24 ss# i i spi enable, active low assertion. enables and frames transfers. 25 sck i i spi clock 26 irq i/o o interrupt output (configurable active high or low), or gpio 27 mosi i/o i spi data input pin master out slave in (mosi) or serial data (sdat) 28 miso i/o z spi data output pin - master in slave out (miso), or gpio (in spi 3-pin mode). tristates when spi 3pin = 0 and ss# is deasserted. 29 xout i/o o buffered 0.75, 1.5, 3, 6, or 12 mhz clock, pactl , or gpio. tristates in sleep mode (conf igure as gpio drive low). 30 pactl i/o o control signal for external pa, t/r switch, or gpio 33 v io pwr i/o interface voltage, 1.8 v to 3.6 v 34 rst i i device reset. internal 10-k ? pull-down resistor. active high, typically connect through a 0.47- ? f capacitor to v bat. must have rst = 1 event the first time power is applied to the radio. otherwise, the radio control register state is unknown. 35 v dd pwr decoupling pin for 1.8 v logic regulator, connect through a 0.47- ? f capacitor to gnd. cyrf7936 document #: 001-48013 rev. *g page 4 of 23 functional overview the cyrf7936 ic is designed to implement wireless device links operating in the worldwide 2.4-ghz ism frequency band. it is intended for systems compliant with worldwide regulations covered by etsi en 301 489-1 v1.41, etsi en 300 328-1 v1.3.1 (europe), fcc cfr 47 part 15 (usa and industry canada), and telec arib_t66_march, 2003 (japan). the cyrf7936 contains a 2.4-ghz cyfi radio modem, which features a 1-mbps gfsk radio front-end, packet data buffering, packet framer, dsss baseband controller, and rssi. cyrf7936 features a spi interface for data transfer and device configuration. the cyfi radio modem supports 98 discrete 1-mhz channels (regulations may limit the use of some of these channels in certain jurisdictions). the baseband performs dsss sp reading and despreading, start-of-packet (sop), end-of-packet (eop) detection, and crc16 generation and checking. the baseband may also be configured to automatically transmit ack handshake packets whenever a valid packet is received. when in receive mode, with packet framing enabled, the device is always ready to receive data transmitted at any of the supported bit rates. this ena bles the implementation of mixed-rate systems in which diff erent devices use different data rates. this also enables the im plementation of dynamic data rate systems that use high data rates at shorter distances or in a low-moderate interference environment or both. it changes to lower data rates at longer distances or in high interference environments or both. in addition, the cyrf7936 ic has a power management unit (pmu), which allows direct connection of the device to any battery voltage in the range 1.8 v to 3.6 v. the pmu conditions the battery voltage to provide th e supply voltages required by the device, and may supply external devices. data transmission modes the cyfi radio transceiver supports two different data transmission modes: in gfsk mode, data is transmit ted at 1 mbps, without any dsss. in 8dr mode, dsss is enabled and eight bits are encoded in each derived code symbol transmitted. both 64 chip and 32 chip pseudo noise (pn) codes are supported in 8dr mode. in general, lower data rates reduce packet error rate in any given environment. packet framing the cyrf7936 ic device supports the following data packet framing features: sop packets begin with a two-symbol sop marker. the sop_code_adr pn code used fo r the sop is different from that used for the ?body? of the packet, and if necessary may be a different length. sop must be co nfigured to be the same length on both sides of the link. length this is the first eight bits after the sop symbol and is transmitted at the payload data rate. an eop condition is inferred after reception of the number of bytes defined in the length field, plus two bytes for the crc16. crc16 the device may be configured to append a 16-bit crc16 to each packet. the crc16 uses the usb crc polynomial with the added programmability of the seed. if enabled, the receiver verifies the calculated crc16 for the payload data against the received value in the crc16 field. the seed value for the crc16 calculation is configurable, and the crc16 transmitted may be calculated using either the loaded seed value or a zero seed. the received data crc16 is checked against both the configured and zero crc16 seeds. crc16 detects the following errors: any one bit in error. any two bits in erro r (irrespective of how far apart, which column, and so on). any odd number of bits in error (irrespective of the location). an error burst as wide as the checksum itself. figure 2 shows an example packet with sop, crc16, and lengths fields enabled and figure 3 shows a standard ack packet. 37 lvd o pmu inductor or diode connection, when used. if not used, connect to gnd. 40 v reg pwr pmu boosted output voltage feedback e-pad gnd gnd must be soldered to ground corner tabs nc nc do not solder the tabs and keep other signal traces clear. all tabs are common to the lead frame or paddle, which is grounded after the pad is grounded. while they are visible to the user, they do not extend to the bottom. table 1. pin description - cyrf7936 40-pin qfn (continued) pin number name type default description cyrf7936 document #: 001-48013 rev. *g page 5 of 23 figure 2. example packet format figure 3. exampl e ack packet format packet buffers all data transmission and reception use the 16-byte packet buffers: one for transmission and one for reception. the transmit buffer allows loading a complete packet of up to 16 bytes of payload data in one burst spi transaction. this is then transmitted with no further mcu intervention. similarly, the receive buffer allows receiving an entire packet of payload data up to 16 bytes with no firmware intervention required until the packet reception is complete. maximum packet length depends on the accuracy of the clock on each end of the link. packet lengths up to 40 bytes are supported when the delta between the transmit ter and receiver crystals is 60 ppm or better. interrupts are provided to allow an mcu to use the transmit and receive buffers as fifos. when transmitting a packet longer than 16 bytes, the mcu can load 16 bytes initially, and add further bytes to the transmit buffer as transmission of data creates space in the buffer. similarly, when receiving packets longer than 16 bytes, the mcu must fetch received data from the fifo periodically during packet reception to prevent it from overflowing. auto transaction sequencer (ats) the cyrf7936 ic provides automated support for transmission and reception of acknowledged data packets. when transmitting in transaction mode, the device automatically: starts the crystal and synthesizer enters transmit mode transmits the packet in the transmit buffer transitions to receive mode and waits for an ack packet transitions to the transaction end state when an ack packet is received or a timeout period expires similarly, when receiving in transaction mode, the device automatically: waits in receive mode for a valid packet to be received transitions to transmit mode, transmits an ack packet transitions to the transaction end state (receive mode to await the next packet, and so on.) the contents of the packet buffers are not affected by the transmission or reception of ack packets. in each case, the entire packet transaction takes place without any need for mcu firmware action (as long as packets of 16 bytes or less are used). to transmit data, the mcu must load the data packet to be transmitted, set the length, and set the tx go bit. similarly, when receiving packets in transaction mode, firmware must retrieve the fully received packet in response to an interrupt request indicating reception of a packet. data rates the cyrf7936 ic supports the following data rates by combining the pn code lengths and data transmission modes described in the previous sections: 1000 kbps (gfsk) 250 kbps (32 chip 8dr) 125 kbps (64 chip 8dr) p sop 1 sop 2 length crc 16 payload data preamble n x 16us 1st framing symbol* 2nd framing symbol* packet length 1 byte period *note:32 or 64us p sop 1 sop 2 crc 16 pream ble n x 16us 1st fram ing sym bol* 2nd fram ing sym bol* crc field from received packet. 2 byte periods *note:32 or 64us cyrf7936 document #: 001-48013 rev. *g page 6 of 23 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. frequency synthesizer prior to transmission or recept ion, the frequency synthesizer must settle. the settling time varies depending on the channel; 25 fast channels are provided wit h a maximum settling time of 100 s. the ?fast channels? (less than 100 s settling time) are every third channel, starting at 0 up to and in cluding 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 c onfiguration of dsss pn codes, data rate, operating mode, interrupt masks, interrupt status, and so on. spi interface the cyrf7936 ic has an spi interface supporting 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), mosi, miso, or sdat. spi communication is described as follows: 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 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 ss# pin must be assert ed to initiate an spi transfer. the application mcu can initiate spi data transfers using a multibyte transaction. the firs t byte is the command/address byte and the following bytes are the data bytes as shown in ta b l e 3 through figure 6 on page 7 . the spi communications interf ace 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 figure 4 and figure 5 on page 7 , respectively. the spi communications interfac e single write and burst write sequences are shown in figure 6 and figure 7 on page 7 , 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 the 3-pin mode, 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 writte n to or read from one byte at a time, or several sequential regi ster locations ma y 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 nonincrementi ng burst spi transactions. the irq pin function may be optionally multiplexed to the mosi pin. when this option is enabled, the irq function is not available while the ss# pin is low. when using this configuration, 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 io ). this enables the device to interface directly to mcus operating at voltages below the cyrf7936 ic supply voltage. table 2. internal pa output power step table pa setting typical output power (dbm) 7+4 60 5?5 4?13 3?18 2?24 1?30 0?35 cyrf7936 document #: 001-48013 rev. *g page 7 of 23 figure 4. spi single read sequence figure 5. spi incrementing burst read sequence figure 6. spi single write sequence figure 7. spi incrementing burst write sequence table 3. spi transaction format parameter byte 1 byte 1+n bit # 7 6 [5:0] [7:0] bit name dir inc address data dir 0 inca5a4a3a2a1a0 d7 d6 d5 d4 d3 d2 d1 d0 sck mosi ss miso cmd addr data to mcu dir 0 inca5a4a3a2a1a0 d7 d6 d5 d4 d3 d2 d1 d0 d7 d6 d5 d4 d3 d2 d1 d0 data to mcu 1 cmd addr data to mcu 1+n sck mosi ss miso dir 1 inca5a4a3a2a1a0 d7 d6 d5 d4 d3 d2 d1 d0 sck mosi ss miso cmd addr data from mcu dir 1 inca5a4a3a2a1a0 d7 d6 d5 d4 d3 d2 d1 d0 sck mosi ss miso cmd addr data from mcu 1 d7 d6 d5 d4 d3 d2 d1 d0 data from mcu 1+n cyrf7936 document #: 001-48013 rev. *g page 8 of 23 interrupts the device provides an inte rrupt (irq) out put, which is configurable to indicate the occurrence of different events. the irq pin can be programmed to be either active high or active low; it can be a cmos or open drain output. the cyrf7936 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 r egister to determine which event caused the irq pin to assert. even when a given interrupt source is disabled, the status of the co ndition that othe rwise causes an interrupt can be determined by reading the appropriate status register. it is therefore possibl e to use 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: nominal frequency: 12 mhz operating mode: fundamental mode resonance mode: parallel resonant frequency stability: 30 ppm series resistance: < 60 ? load capacitance: 10 pf drive level: 100 w power management the operating voltage of the device is 1.8 v to 3.6 v dc, which is applied to the v bat pin. the device can be shut down to a fully 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 s 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. the output voltage (v reg ) of the pmu is configurable to several minimum values between 2.4 v and 2.7 v. v reg may be used to provide up to 15 ma (average 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 2.4 v to 3.6 v. the pmu also provides a regulated 1.8 v 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. this eliminates 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) can 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; a ss12 diode must be used to stay within this linear r ange 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 can be read over t he spi interface. one of seven thresholds between 1.8 v and 2.7 v can be selected. the interrupt pin can be configured to assert when the voltage on the v bat pin falls below the configured threshold. lv irq is not a latched event. battery monitoring is disabled when the device is in sleep mode. receiver front end the gain of the receiver can be controlled directly by writing to the low-noise amplifier (lna) bit and the attenation (att) 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 att bit. this limits data reception to devices at very short ranges. 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. this allows 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 s. cyrf7936 document #: 001-48013 rev. *g page 9 of 23 receive spurious response the transmitter may exhibit spurs around 50mhz offset at levels approximately 50db to 60db below the carrier power. receivers operating at the transmit spur frequency may receive the spur if the spur level power is greater than the receive sensitivity level. the workaround for this is to program an additional byte in the packet header which contains the transmitter channel number. after the packet is received, the channel number can be checked. if the channel number does not match the receive channel then the packet is rejected. application examples figure 8. recommended circuit for systems where v bat ? 2.4 v cyrf7936 cyrf7936 document #: 001-48013 rev. *g page 10 of 23 table 4. recommended bom for systems where v bat ? 2.4 v item qty cy part number reference description manufacturer mfr part number 1 1 na ant1 2.5 ghz h-stub wiggle antenna for 32 mil pcb na na 2 1 730-10012 c1 cap 15 pf 50 v ceramic npo 0402 panasonic ecj-0ec1h150j 3 1 730-11955 c3 cap 2.0 pf 50 v ceramic npo 0402 kemet c0402c209c5gactu 4 1 730-11398 c4 cap 1.5pf 50 v ceramic npo 0402 smd panasonic ecj-0ec1h1r5c 5 1 730r-13322 c5 cap cer.47 uf 6.3 v x5r 0402 murata grm155r60j474ke1 9d 6 2 730-13037 c12,c7 cap ceramic 10 uf 6.3 v x5r 0805 kemet c0805c106k9pactu 7 1 730-13400 c8 cap 1 uf 6.3 v ceramic x5r 0402 panasonic ecj-0eb0j105m 8 6 730-13404 c9,c10,c11, c13,c15,c16 cap 0.047 uf 50 v ceramic x5r 0402 avx 0402yd473kat2a 9 1 730r-11952 c17 cap.10uf 10 v ceramic x5r 0402 kemet c0402c104k8pactu 10 1 800-13317 d1 diode schottky 0.5a 40 v sot23 diodes inc bat400d-7-f 11 1 420-11976 j1 conn header 12 pin 2mm gold hirose electric co. ltd. df11-12dp-2dsa(01) 12 1 800-13401 l1 inductor 22nh 2% fixed 0603 smd panasonic - ecg elj-re22ngf2 13 1 800-11651 l2 inductor 1.8nh +-.3nh fixed 0402 smd panasonic - ecg elj-rf1n8df 14 1 800-10594 l3 coil 10uh 1100ma choke 0805 newark 30k5421 15 1 630-11356 r1 res 1.00 ohm 1/8w 1% 0805 smd yageo 9c08052a1r00fkhft 16 1 610-13402 r2 res 47 ohm 1/16w 5% 0402 smd panasonic - ecg erj-2gej470x 17 1 cyrf7936-40lfxc u1 ic, lp 2.4 ghz radio soc qfn-40 cypress semiconductor cyrf7936-40lfxc 18 1 800-13259 y1 crystal 12.00 mhz hc49 smd ecera gf-1200008 19 1 pdcr-9515 rev01 pcb printed circuit board cypress semiconductor pdcr-9515 rev01 20 1 920-11206 label1 serial number 21 1 920-51500 rev01 label2 pca # 121r-51500 rev01 cyrf7936 document #: 001-48013 rev. *g page 11 of 23 figure 9. recommended circuit for systems where v bat is 2.4 v to 3.6 v (pmu disabled) power supply red = usb activity green = rf activity dm sw1 vbus dp miso rst lp_irq sck mosi lp_nss nled1 nled2 sw1 lp_irq nled1 nled2 sck lp_nss rst miso mosi pactl clkout clkout p0_1 vcc 5v 5v 5v vcc 5v 5v vcc vcc 0402 c17 0.47 ufd 0402 r10 100 y1 12 mhz crystal 0402 r9 620 0402 r7 1k u2 cy 8 c 24794 -2 4lfxi 45 46 5 4 53 52 51 50 1 9 2 2 49 21 20 47 40 40 2 4 2 1 43 5 6 25 1 8 25 17 22 16 28 15 p0_0 p0_2 p0_1 p0_3 p0_5 p0_7 vss vss vcc vdd dm dp p0_4 p0_6 p2_0 p2_1 p2_2 p2_3 p2_4 p2_5 p1_0 p1_1 p1_2 p1_3 p1_4 p1_5 p1_6 p1_7 0402 c4 1.5 pfd ind0402 l2 1.8 nh 0805 c13 4.7 ufd tp4 0402 r11 100 0402 c11 0.047 ufd 0402 c8 0.047 ufd 0402 r4 zero s1 sw pushbutton 1a 1b 2a 2b 0402 c5 0.47 ufd ant1 wiggle 32 1 2 0603 r1 24 0402 c12 1500 pfd u1 cyrf 7 936 36 4 8 19 16 20 2 25 27 26 29 34 28 3 7 5 13 6 37 1 24 39 40 41 35 9 14 10 11 12 15 17 18 21 30 22 33 23 31 32 38 nc15 nc2 vbat2 resv vcc3 nc9 nc1 sck mosi irq xout rst miso vcc1 vcc2 nc3 rfn vbat1 l/d xtal ss nc16 vreg e-pad vdd nc4 nc5 rfbias rfp gnd1 nc6 nc7 nc8 nc10 pactl nc11 vio nc12 nc13 nc14 vbat0 0402 c3 2.0 pfd 0402 r3 no load 0402 c1 15 pfd 0402 c9 0.047 ufd 0402 c6 0.047 ufd tp2 0805 c14 2.2 ufd 0402 r8 620 0402 c15 0.01 ufd 0402 r5 1k 0603 r2 24 u3 tps79133 1 5 3 2 4 vin vout en gnd pybass tp1 j1 usb a ra plug 1 2 3 4 5 6 vbus dm dp gnd s1 s2 tv1 d1 led green red 1 2 3 4 gr rd kg kr ind0603 l1 22 nh 0402 r6 1k 0402 c10 0.047 ufd 0402 c7 0.047 ufd tp3 cyrf7936 document #: 001-48013 rev. *g page 12 of 23 table 5. recommended bom for systems where v bat is 2.4 v - 3.6 v (pmu disabled) item qty cy part number reference description manufacturer mfr part number 1 1 na ant1 2.5 ghz h-stub wiggle antenna for 32mil pcb na na 2 1 730-10012 c1 cap 15 pf 50 v ceramic npo 0402 panasonic ecj-0ec1h150j 3 1 730-11955 c3 cap 2.0 pf 50 v ceramic npo 0402 kemet c0402c209c5gactu 4 1 730-11398 c4 cap 1.5 pf 50 v ceramic npo 0402 smd panasonic ecj-0ec1h1r5c 5 1 730-13322 c5 cap 0.47 uf 6.3 v ce ramic x5r 0402 murata grm155r60j474ke19d 6 6 730-13404 c6,c7,c8,c 9,c10, c11 cap 0.047 uf 16 v ceramic x5r 0402 avx 0402yd473kat2a 7 1 730-11953 c12 cap 1500pf 50v cera mic x7r 0402 kemet c0402c152k5ractu 8 1 730-13040 c13 cap ceramic 4.7uf 6.3v xr5 0805 kemet c0805c475k9pactu 9 1 730-12003 c14 cap cer 2.2 uf 10 v 10% x7r 0805 murata electronics north america grm21br71a225ka01l 10 1 800-13333 d1 led green/red bicolo r 1210 smd liteon ltst-c155kgjrkt 11 1 420-13046 j1 conn usb plug ty pe a pcb smt acon uar72-4n5j10 12 1 800-13401 l1 inductor 22nh 2% fixed 0603 smd panasonic - ecg elj-re22ngf2 13 1 800-11651 l2 inductor 1.8nh +-.3nh fixed 0402 smd panasonic - ecg elj-rf1n8df 14 2 610-10037 r1, r2 res 24 ohm 1/16w 5% 0603 smd panasonic - ecg erj-3geyj240v 15 1 610-10343 r4 res zero ohm 1/16w 0402 smd panasonic - ecg erj-2ge0r00x 16 3 610-10016 r5, r6, r7 res chip 1k ohm 1/16w 5% 0402 smd panasonic - ecg erj-2gej102x 17 2 610-13472 r9,r8 res chip 620 ohm 1/16w 5% 0402 smd panasonic - ecg erj-2gej621x 18 2 610-10684 r10, r11 res chip 100 ohm 1/16w 5% 0402 smd phycomp usa inc 9c1a04021000flhf3 19 1 200-13471 s1 switch lt 3.5mmx2.9mm 160gf smd panasonic - ecg evq-p7j01k 20 1 cyrf7936-40lfc u1 ic, 2.4 ghz cyfi transceiver qfn-40 cypress semiconductor cyrf7936 rev a5 21 1 cy8c24794-24lfxi u2 psoc mixed signal array cypress semiconductor cy8c24794-24lfxi 22 1 800-13259 y1 crystal 12.00 mhz hc49 smd ecera gf-1200008 23 1 label1 serial number xxxxxx cyrf7936 document #: 001-48013 rev. *g page 13 of 23 absolute maximum ratings exceeding maximum ratings may s horten the useful life of the device. user guidelines are not tested. storage temperature................................. ?65 c to +150 c ambient temperature with power applied . ?55 c to +125 c supply voltage on any power supply pin relative to v ss ...............................................?0.3 v to +3.9 v dc voltage to logic inputs [8] ................... ?0.3 v to v io +0.3 v dc voltage applied to outputs in high-z state........................................ ?0.3 v to v io +0.3 v static discharge voltage (digital) [9] ............................ >2000 v static discharge voltage (rf) [9] ................................. 1100 v latch-up current ......................................+200 ma, ?200 ma operating conditions v cc ...................................................................2.4 v to 3.6 v v io ....................................................................1.8 v to 3.6 v v bat ..................................................................1.8 v to 3.6 v t a (ambient temperature under bias) ............. 0 c to +70 c ground voltage ................................................................. 0 v f osc (crystal frequency).. .............. ....... 12 mhz 30 ppm b notes 8. it is permissible to connect voltages above v io to inputs through a series resistor limiting input current to 1 ma. ac timing not guaranteed. 9. human body model (hbm). 10. v reg depends on battery input voltage. 11. in sleep mode, the i/o interface voltage reference is v bat . 12. in sleep mode, v cc min. can be as low as 1.8 v. 13. includes current drawn while starting crystal, starting synthesizer, transmitting packet (including sop and crc16), changing to receive mode, and receiving ack handshake. device is in sleep e xcept during this transaction. 14. isb is not guaranteed if any i/o pi n is connected to voltages higher than v io . 15. i load_ext is dependant on external components and this entry applies when the components connected to l/d are ss12 series diode and dh53 100lc inductor from sumida. dc characteristics (t = 25 ? c, v bat = 2.4 v, pmu disabled, f osc = 12.000000 mhz) parameter description conditions min typ max unit v bat battery voltage 0 c to 70 c 1.8 ? 3.6 v v reg [10] pmu output voltage 2.4 v mode 2.4 2.43 ? v v reg [10] pmu output voltage 2.7 v mode 2.7 2.73 ? v v io [11] v io voltage 1.8 ? 3.6 v v cc v cc voltage 0 c to 70 c 2.4 [12] ?3.6v v oh1 output high voltage condition 1 at i oh = ?100.0 a v io ? 0.2 v io ?v v oh2 output high voltage condition 2 at i oh = ?2.0 ma v io ? 0.4 v io ?v v ol output low voltage at i ol = 2.0 ma ? 0 0.45 v v ih input high voltage 0.7v io ?v io v v il input low voltage 0 ? 0.3v io v i il input leakage current 0 < v in < v io ?1 0.26 +1 a c in pin input capacitance except xtal, rf n , rf p , rf bias ?3.510pf i cc (gfsk) [13] average tx i cc , 1 mbps, slow channel pa = 5, 2 way, 4 bytes/10 ms ? 0.87 ? ma i cc (32-8dr) [13] average tx i cc , 250 kbps, fast channel pa = 5, 2 way, 4 bytes/10 ms ? 1.2 ? ma i sb [14] sleep mode i cc ?0.810a i sb [14] sleep mode i cc pmu enabled ? 31.4 ? a idle i cc radio off, xtal active xout disabled ? 1.0 ? ma i synth i cc during synth start ? 8.4 ? ma tx i cc i cc during transmit pa = 5 (?5 dbm) ? 20.8 ? ma tx i cc i cc during transmit pa = 6 (0 dbm) ? 26.2 ? ma tx i cc i cc during transmit pa = 7 (+4 dbm) ? 34.1 ? ma rx i cc i cc during receive lna off, att on ? 18.4 ? ma rx i cc i cc during receive lna on, att off ? 21.2 ? ma boost eff pmu boost converter efficiency v bat = 2.5 v, v reg = 2.73 v, i load = 20 ma ?81?% i load_ext [15] average pmu external load current v bat = 1.8 v, v reg = 2.73 v, 0?50 c, rx mode ??15ma i load_ext [15] average pmu external load current v bat = 1.8v, v reg = 2.73v, 50 c?70 c, rx mode ??10ma cyrf7936 document #: 001-48013 rev. *g page 14 of 23 figure 10. spi timing ac characteristics table 6. spi interface [16, 17] parameter description min typ max unit t sck_cyc spi clock period 238.1 ? ? ns t sck_hi spi clock high time 100 ? ? ns t sck_lo spi clock low time 100 ? ? ns t dat_su spi input data setup time 25 ? ? ns t dat_hld spi input data hold time 10 ? ? ns t dat_val spi output data valid time 0 ? 50 ns t dat_val_tri spi output data tristate (mosi fr om slave select deassert) ? 20 ns t ss_su spi slave select setu p time before first positive edge of sck [18] 10 ? ? ns t ss_hld spi slave select hold time after last negative edge of sck 10 ? ? ns t ss_pw spi slave select minimum pulse width 20 ? ? ns t sck_su spi slave select setup time 10 ? ? ns t sck_hld spi sck hold time 10 ? ? ns t reset minimum rst pin pulse width 10 ? ? ns sck nss mosi input mi so mosi output t sck_hi t sck_lo t ss_su t sck_su t sck_cyc t ss_hld t sck_hld t dat_su t dat_hld t dat_val t dat_val_tri notes 16. ac values are not guaranteed if voltage on any pin exceeding v io . 17. c load = 30 pf 18. sck must start low at the time ss# goes low, othe rwise the success of spi tr ansactions are not guaranteed. cyrf7936 document #: 001-48013 rev. *g page 15 of 23 rf characteristics notes 19. subject to regulation. 20. rssi value is not guaranteed. ext ensive variation from part to part. 21. exceptions f/3 and 5c/3. table 7. radio parameters parameter description conditions min typ max unit rf frequency range refer note 19 2.400 ? 2.497 ghz receiver (t = 25 c, v cc = 3.0 v, f osc = 12.000000 mhz, ber < 1e-3) sensitivity 125 kbps 64-8dr ber 1e-3 ?97 ? dbm sensitivity 250 kbps 32-8dr ber 1e-3 ?93 ? dbm sensitivity cer 1e-3 ?80 ?87 ? dbm sensitivity gfsk ber 1e-3, all slow = 1 ?84 ? dbm lna gain ? 22.8 ? db att gain ? ?31.7 ? db maximum received signal lna on ?15 ?6 ? dbm rssi value for pwr in ?60 dbm [20] lna on 21 ? count rssi slope 1.9 ? db/count interference performance (cer 1e-3) co-channel interference rejection carrier-to-interference (c/i) c = ?60 dbm ? 9 ? db adjacent (1 mhz) channel selectivity c/i 1 mhz c = ?60 dbm ? 3 ? db adjacent (2 mhz) channel selectivity c/i 2 mhz c = ?60 dbm ? ?30 ? db adjacent (> 3 mhz) channel selectivity c/i > 3 mhz c = ?67 dbm ? ?38 ? db out-of-band blocking 30 mhz?12.75 mhz [21] c = ?67 dbm ? ?30 ? dbm intermodulation c = ?64 dbm, ? f = 5,10 mhz ? ?36 ? dbm receive spurious emission 800 mhz 100 khz resbw ? ?79 ? dbm 1.6 ghz 100 khz resbw ? ?71 ? dbm 3.2 ghz 100 khz resbw ? ?65 ? dbm transmitter (t = 25c, v cc = 3.0 v) maximum rf transmit power pa = 7 +2 4 +6 dbm maximum rf transmit power pa = 6 ?2 0 +2 dbm maximum rf transmit power pa = 5 ?7 ?5 ?3 dbm maximum rf transmit power pa = 0 ? ?35 ? dbm rf power control range ? 39 ? db rf power range control step size seven steps, monotonic ? 5.6 ? db frequency deviation min pn code pattern 10101010 ? 270 ? khz frequency deviation max pn code pattern 11110000 ? 323 ? khz error vector magnitude (fsk error) >0 dbm ? 10 ? %rms occupied bandwidth ?6 dbc, 100 khz resbw 500 876 ? khz transmit spurious emission (pa = 7) in-band spurious second channel power (2 mhz) ? ?38 ? dbm in-band spurious third channel power (> 3 mhz) ? ?44 ? dbm cyrf7936 document #: 001-48013 rev. *g page 16 of 23 non harmonically related spurs (800 mhz) ? ?38 ? dbm non harmonically related spurs (1.6 ghz) ? ?34 ? dbm non harmonically related spurs (3.2 ghz) ? ?47 ? dbm harmonic spurs (second harmonic) ? ?43 ? dbm harmonic spurs (third harmonic) ? ?48 ? dbm fourth and greater harmonics ? ?59 ? dbm power management (crystal pn# ecera gf-1200008) crystal start to 10 ppm ? 0.7 1.3 ms crystal start to irq xsirq en = 1 ? 0.6 ? ms synth settle slow channels ? ? 270 s synth settle medium channels ? ? 180 s synth settle fast channels ? ? 100 s link turnaround time gfsk ? ? 30 s link turnaround time 250 kbps ? ? 62 s link turnaround time 125 kbps ? ? 94 s link turnaround time <125 kbps ? ? 31 s maximum packet length <60 ppm crystal-to-crystal ? ? 40 bytes table 7. radio parameters (continued) parameter description conditions min typ max unit cyrf7936 document #: 001-48013 rev. *g page 17 of 23 typical operating characteristics the typical operating characteristics of cyrf7936 follow [22] receiver sensitivity vs. frequency offset -98 -96 -94 -92 -90 -88 -86 -84 -82 -80 -150 -100 -50 0 50 100 150 crystal offset (ppm) receiver sensitivit y (dbm) rx sensitivity vs. vcc (1mbps cer) -94 -92 -90 -88 -86 -84 -82 -80 2.4 2.6 2.8 3 3.2 3.4 3.6 vcc receiver sensitivity (dbm) transmit power vs. vcc (pmu off) -14 -12 -10 -8 -6 -4 -2 0 2 4 6 2.4 2.6 2.8 3 3.2 3.4 3.6 vcc output power (dbm) transmit power vs. temperature (vcc = 2.7v) -14 -12 -10 -8 -6 -4 -2 0 2 4 6 0204060 temp (deg c) output power (dbm) receiver sensitivity vs channel (3.0v, room temp) -95 -93 -91 -89 -87 -85 -83 -81 0 1020304050607080 channel receiver sensitivit y (dbm) carrier to interferer (narrow band, lp modulation) -60.0 -50.0 -40.0 -30.0 -20.0 -10.0 0.0 10.0 20.0 -10 -5 0 5 10 channel offset (mhz) c/i (db) rssi vs. channel (rx signal = -70dbm) 0 2 4 6 8 10 12 14 16 18 0 20406080 channel rssi count typical rssi count vs input power 0 8 16 24 32 -120 -100 -80 -60 -40 -20 input power (dbm) rssi count transmit power vs. channel -14 -12 -10 -8 -6 -4 -2 0 2 4 6 020406080 channel output power (dbm) average rssi vs. temperature (rx signal = -70dbm) 12 13 14 15 16 17 18 19 0204060 temp (deg c) rssi count pa7 pa6 pa5 pa4 pa7 pa6 pa5 pa4 pa7 pa6 pa5 pa4 lna on lna off lna off att on gfsk 8dr64 gfsk cer 8dr32 cer 8dr32 rx sensitivity vs. temperature (1mbps cer) -94 -92 -90 -88 -86 -84 -82 -80 0204060 temp (deg c) receiver sensitivity (dbm) cer 8dr32 average rssi vs. vcc (rx signal = -70dbm) 10 11 12 13 14 15 16 17 18 19 20 2.4 2.6 2.8 3 3.2 3.4 3.6 vcc rssi count note 22. with lna on, att off, above ?2dbm erroneous rssi values may be read. cross-checking rssi with lna off/on is recommended for accurate readings. cyrf7936 document #: 001-48013 rev. *g page 18 of 23 typical operating characteristics (continued) gfsk vs. ber (sop threshold = 5, c38 slow) 0.00001 0.0001 0.001 0.01 0.1 1 10 100 -100 -80 -60 -40 -20 0 input power (dbm) %ber icc rx synth 7.8 7.9 8 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9 9 9.1 9.2 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc tx synth 7.8 7.9 8 8.1 8.2 8.3 8.4 8.5 8.6 8.7 8.8 8.9 9 9.1 9.2 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc tx @ pa0 14 14.5 15 15.5 16 16.5 17 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc tx @ pa1 14 14.5 15 15.5 16 16.5 17 17.5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc tx @ pa2 15 15.5 16 16.5 17 17.5 18 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc tx @ pa3 15.5 16 16.5 17 17.5 18 18.5 19 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc tx @ pa4 16.5 17 17.5 18 18.5 19 19.5 20 20.5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) ber vs. data threshold (32-8dr) (sop threshold = 5, c38 slow) 0.00001 0.0001 0.001 0.01 0.1 1 10 -100 -95 -90 -85 -80 -75 -70 input power (dbm) %ber 0 thru 7 gfsk icc rx (lna off) 17 17.5 18 18.5 19 19.5 20 20.5 21 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc rx (lna on) 19 19.5 20 20.5 21 21.5 22 22.5 23 23.5 24 24.5 25 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v cyrf7936 document #: 001-48013 rev. *g page 19 of 23 typical operating characteristics (continued) figure 11. ac test loads and waveforms for digital pins ordering code definition icc tx @ pa5 19.5 20 20.5 21 21.5 22 22.5 23 23.5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) icc tx @ pa6 24.5 25 25.5 26 26.5 27 27.5 28 28.5 29 29.5 30 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v 3.3v 3.0v 2.7v 2.4v icc tx @ pa7 32.5 33 33.5 34 34.5 35 35.5 36 36.5 37 37.5 38 38.5 39 39.5 40 40.5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 temperature (c) operating current (ma) 90% 10% v cc gnd 90% 10% all input pulses output 30 pf including jig and scope output r th equivalent to: v th thvenin equivalent rise time: 1 v/ns fall time: 1 v/ns output 5 pf including jig and scope max typical parameter unit r1 1071 ? r2 937 ? r th 500 ? v th 1.4 v v cc 3.00 v v cc output r1 r2 ac test loads dc test load ordering information part number radio package name package type operating range CYRF7936-40LTXC transceiver 40-qfn 40-qfn (sawn type) commercial cy marketing code rf company id: cy = cypress part number 7936 40-pin qfn package x = pb-free 40-ltx temperature range: = commercial c cyrf7936 document #: 001-48013 rev. *g page 20 of 23 package description the recommended dimension of the pcb pad size for the e-pad underneath the qfn is 3.5 mm 3.5 mm (width length). figure 12. 40-pin sawn qfn (6 6 0.90 mm) 001-44328 *f cyrf7936 document #: 001-48013 rev. *g page 21 of 23 document conventions acronyms units of measure. table 8. acronyms used in this document acronym description ack acknowledge (packet received, no errors) ats auto transaction sequencer ber bit error rate bom bill of materials cmos complementary metal oxide semiconductor crc cyclic redundancy check dsss direct sequence spread spectrum eop end-of-packet fec forward error correction gfsk gaussian frequ ency-shift keying hbm human body model ism industrial, scientific, and medical irq interrupt request lna low-noise amplifier mcu microcontroller unit miso master in slave out mosi master out slave in pa power amplifier pll phase locked loop pmu power management unit pn pseudo noise qfn quad flat no-leads rssi received signal strength indication rf radio frequency rx receive sck serial clock sdat serial data sop start-of-packet spi serial peripheral interface tx transmit table 9. units of measure symbol unit of measure c degree celsius db decibels dbc decibel relative to carrier dbm decibel-milliwatt hz hertz kb kilobyte, 1024 bytes kbit kilobit, 1024 bits khz kilohertz k ? kilohms mhz megahertz m ? megaohm ? a microamperes ? s microseconds ? v microvolts ? vrms microvolts root-mean-square ? w microwatts ma milliampere ms millisecond mv millivolts na nanoampere ns nanosecond nv nanovolts ? ohm pp peak-to-peak ppm parts per million ps picosecond sps samples per second v volts cyrf7936 document #: 001-48013 rev. *g page 22 of 23 document history page description title: cyrf7936 2.4-ghz cyfi? transceiver document number: 001-48013 revision ecn orig. of change submission date description of change ** 2557501 kku/aesa 08/25/ 2008 new data sheet *a 2615458 kku/aesa 01/13/2009 updated block diagram, changed sop to sop, changed eop to eop, changed frequency initial stability to frequency stability, change section on low noise amplifier. to receiver front end and removed agc enable. updated register map summary. *b 2672793 dpt/pyrs 03/12/2009 updated packaging and ordering information. *c 2902376 tge 03/31/2010 removed inactive parts from ordering information. updated package diagram. *d 2927979 tge/aesa 05/05/2 010 removed register descriptions section. added contents updated links in sales, solutions, and legal information . *e 3028381 tge 09/13/2010 updated applications support section added acronyms and units of measure. tables added ordering code definition section *f 3346285 tge 08/18/2011 updated to latest template added footnote 20 on page 16. added ?receive spurious response? on page 9. *g 3611344 tge 05/08/2012 updated package diagram spec to *f revision. document #: 001-48013 rev. *g revised may 8, 2012 page 23 of 23 cyrf7936 ? cypress semiconductor corporation, 2007-2012. the information contained herein is subject to change without notice. cypress s emiconductor corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a cypress product. nor does it convey or imply any license under patent or other rights. cypress products are not warranted nor intended to be used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement wi th cypress. furthermore, cypress does not authorize its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. the inclusion of cypress products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies cypress against all charges. any source code (software and/or firmware) is owned by cypress semiconductor corporation (cypress) and is protected by and subj ect to worldwide patent protection (united states and foreign), united states copyright laws and internatio nal treaty provisions. cypress hereby grants to licensee a personal, non-exclusive, non-transferable license to copy, use, modify, create derivative works of, and compile the cypress source code and derivative works for the sole purpose of creating custom software and or firmware in su pport of licensee product to be used only in conjunction with a cypress integrated circuit as specified in the applicable agreement. any reproduction, modification, translation, compilation, or repre sentation of this source code except as specified above is prohibited without the express written permission of cypress. disclaimer: cypress makes no warranty of any kind, express or implied, with regard to this material, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. cypress reserves the right to make changes without further notice to t he materials described herein. cypress does not assume any liability arising out of the application or use of any product or circuit described herein. cypress does not authori ze its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. the inclusion of cypress? prod uct in a life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies cypress against all charges. use may be limited by and subject to the applicable cypress software license agreement. sales, solutions, and legal information worldwide sales and design support cypress maintains a worldwide network of offices, solution center s, manufacturer?s representative s, and distributors. to find t he office closest to you, visit us at cypress locations . products automotive cypress.co m/go/automotive clocks & buffers cypress.com/go/clocks interface cypress. com/go/interface lighting & power control cypress.com/go/powerpsoc cypress.com/go/plc memory cypress.com/go/memory optical & image sensing cypress.com/go/image psoc cypress.com/go/psoc touch sensing cyp ress.com/go/touch usb controllers cypress.com/go/usb wireless/rf cypress.com/go/wireless psoc solutions psoc.cypress.com/solutions psoc 1 | psoc 3 | psoc 5 |
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