EVB7122 27 to 930MHz Transceiver Evaluation Board Description Features ! Single chip solution with only a few external components ! Stand-alone fixed-frequency user mode ! Programmable multi-channel user mode ! Low current consumption in active mode and very low standby current ! PLL-stabilized RF VCO (LO) with internal varactor diode ! Lock detect output in programmable user mode ! On-chip AFC for extended input frequency acceptance range ! FSK for digital data or FM for analog signal reception ! FSK/ASK mode selection ! RSSI output for signal strength indication and ASK reception ! ASK detection normal or with peak detector ! Switchable LNA gain for improved dynamic range ! Automatic PA turn-on after PLL lock ! ASK modulation achieved by PA on/off keying ! 3wire bus serial control interface ! EVB comes with a cable to connect to a PC’s LPT port ! EVB programming software is available on Melexis web site Ordering Information Part No. (see paragraph 6) EVB7122-315-FSK-C EVB7122-433-FSK-C EVB7122-868-FSK-C EVB7122-915-FSK-C Note 1: EVB default population is FSK, ASK modifications according to section 4.2 and 4.3. Note 2: EVB7122 is applicable for devices TH7122 and TH71221. Application Examples Evaluation Board Example ! General bi-directional half duplex digital data RF signaling or analog signal communication ! Tire Pressure Monitoring Systems (TPMS) ! Remote Keyless Entry (RKE) ! Low-power telemetry systems ! Alarm and security systems ! Wireless access control ! Garage door openers ! Networking solutions ! Active RFID tags ! Remote controls ! Home and building automation General Description The TH7122 is a single chip FSK/FM/ASK transceiver IC. It is designed to operate in low-power multichannel programmable or single-channel stand-alone, half-duplex data transmission systems. It can be used for applications in automotive, industrial-scientific-medical (ISM), short range devices (SRD) or similar applications operating in the frequency range of 300 MHz to 930 MHz. In programmable user mode, the transceiver can operate down to 27 MHz by employing an external VCO varactor diode. 39012 07122 02 Rev. 005 Page 1 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description Document Content 1 2 Theory of Operation ...................................................................................................3 1.1 General............................................................................................................................. 3 1.2 Technical Data Overview.................................................................................................. 3 1.3 Note on ASK Operation .................................................................................................... 3 1.4 Block Diagram .................................................................................................................. 4 1.5 User Mode Features ......................................................................................................... 4 Description of User Modes........................................................................................5 2.1 2.1.1 2.1.2 2.1.3 2.1.4 2.2 2.2.1 3 Frequency Selection .................................................................................................................... 5 Operation Mode ........................................................................................................................... 5 Modulation Type .......................................................................................................................... 6 LNA Gain Mode ........................................................................................................................... 6 Programmable User Mode Operation............................................................................... 6 Serial Control Interface Description ............................................................................................. 6 Register Description ..................................................................................................7 3.1 3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 4 Stand-alone User Mode Operation ................................................................................... 5 Register Overview ............................................................................................................ 8 Default Register Settings for FS0, FS1........................................................................................ 8 A – word ....................................................................................................................................... 9 B – word ..................................................................................................................................... 10 C – word..................................................................................................................................... 11 D – word..................................................................................................................................... 12 Application Circuits .................................................................................................13 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 4.3 4.3.1 4.3.2 FSK Application Circuit Programmable User Mode (internal AFC option)...................... 13 Board Component Values for FSK Reception ........................................................................... 14 Component Arrangement Top Side for FSK Reception ............................................................ 15 ASK Application Circuit Programmable User Mode (normal data slicer option) ............. 16 Board Component Values for ASK (normal data slicer option) ................................................. 17 Component Arrangement Top Side for ASK Reception (normal data slicer option) ................. 18 ASK Application Circuit with Peak Detector Option ........................................................ 19 Board Component Values for ASK (peak detector option)........................................................ 20 Component Arrangement Top Side for ASK Reception (peak detector option)........................ 21 5 Evaluation Board Layouts .......................................................................................22 6 Board Variants..........................................................................................................22 7 Package Description ................................................................................................23 7.1 8 Soldering Information ..................................................................................................... 23 Disclaimer .................................................................................................................24 39012 07122 02 Rev. 005 Page 2 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 1 Theory of Operation 1.1 General The main building block of the transceiver is a programmable PLL frequency synthesizer that is based on an integer-N topology. The PLL is used for generating the carrier frequency during transmission and for generating the LO signal during reception. The carrier frequency can be FSK-modulated by pulling the crystal and ASK-modulated by on/off keying of the power amplifier. The receiver is based on the principle of a single conversion superhet. Therefore the VCO frequency has to be changed between transmit and receive mode. In receive mode, the preferred LO injection type is low-side injection. The TH7122 transceiver IC consists of the following building blocks: " " " " " " " 1.2 Low-noise amplifier (LNA) for high-sensitivity RF signal reception with switchable gain Mixer (MIX) for RF-to-IF down-conversion IF amplifier (IFA) to amplify and limit the IF signal and for RSSI generation Phase-coincidence demodulator with external ceramic discriminator (FSK Demodulator) Operational amplifier (OA1), connected to demodulator output Operational amplifier (OA2), for geral use Peak detector (PKDET) for ASK detection " " " " " " " Control logic with 3wire bus serial control interface (SCI) Reference oscillator (RO) with external crystal Reference divider (R counter) Programmable divider (N/A counter) Phase-frequency detector (PFD) Charge pump (CP) Voltage controlled oscillator (VCO) with internal varactor Power amplifier (PA) with adjustable output power Technical Data Overview ! Frequency range: 300 MHz to 930 MHz in programmable user mode ! Extended frequency range with external VCO varactor diode: 27 MHz to 930 MHz ! 315 MHz, 433 MHz, 868 MHz or 915 MHz fixedfrequency settings in stand-alone mode ! Power supply range: 2.2 V to 5.5 V ! Temperature range: -40 °C to +85 °C ! Standby current: 50 nA ! Operating current in receive: 6.5 mA (low gain) ! Operating current in transmit: 12 mA (at -2 dBm) ! Adjustable RF power range: -20 dBm to +10dBm ! Sensitivity: -105 dBm at FSK with 180 kHz IF filter BW 1.3 " ! Sensitivity: -107 dBm at ASK with 180 kHz IF filter BW ! Max. data rate with crystal pulling: 20 kbps NRZ ! Max. data rate with direct VCO modulation: 115 kbps NRZ ! Max. input level: -10 dBm at FSK and -20 dBm at ASK ! Input frequency acceptance: ± 10 to ± 150 kHz (depending on FSK deviation) ! FM/FSK deviation range: ±2.5 to ±80 kHz ! Analog modulation frequency: max. 10 kHz ! Crystal reference frequency: 3 MHz to 12 MHz ! External reference frequency: 1 MHz to 16 MHz Note on ASK Operation Optimum ASK performance can be achieved by using an 8-MHz crystal for operation at 315 MHz, 434 MHz and 915 MHz. For details please refer to the software settings shown in sections 4.2 and 4.3. FSK operation is the preferred choice for applications in the European 868MHz band. For more detailed information, please refer to the latest TH7122 data sheet revision 39012 07122 02 Rev. 005 Page 3 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 2 7 3 IN_DEM RSSI 1 VCC_IF 31 IN_IFA 32 VEE_IF 6 OUT_DEM PKDET SW1 1.5pF 26 FSK Demodulator MIX LNA 5 INT1 IFA SW2 OA1 Control Logic 15 16 TE/SDTA 13 RE/SCLK 12 ASK/FSK 9 IN_DTA 19 VEE_RO 11 FS1/LD 22 VEE_PLL 10 RO 17 FS0/SDEN FSK FSK_SW 23 LF SCLK 21 TNK_LO 20 VCC_PLL Fig. 1: 1.5 RO SDTA RO PA 24 PS_PA SCI R counter SDEN N counter VCO 25 8 OUT_DTA 200k LO OUT_PA 4 INT2/PDO MIX IF ASK OA2 18 14 VCC_DIG IN_LNA bias VEE_DIG 30 OUT_MIX 28 IN_MIX 29 OUT_LNA 27 GAIN_LNA Block Diagram VEE_LNA 1.4 TH7122 block diagram User Mode Features The transceiver can operate in two different user modes. It can be used either as a 3wire-bus-controlled programmable or as a stand-alone fixed-frequency device. After power up, the transceiver is set to Standalone User Mode (SUM). In this mode, pins FS0/SDEN and FS1/LD must be connected to VEE or VCC in order to set the desired frequency of operation. There are 4 pre-defined frequency settings: 315MHz, 433.92MHz, 868.3MHz and 915MHz. The logic level at pin FS0/SDEN must not be changed after power up in order to remain in fixed-frequency mode. After the first logic level change at pin FS0/SDEN, the transceiver enters into Programmable User Mode (PUM). In this mode, the user can set any PLL frequency or mode of operation by the SCI. In SUM pins FS0/SDEN and FS1/LD are used to set the desired frequency, while in PUM pin FS0/SDEN is part of the 3-wire serial control interface (SCI) and pin FS1/LD is the look detector output signal of the PLL synthesizer. A mode control logic allows several operating modes. In addition to standby, transmit and receive mode, two idle modes can be selected to run either the reference oscillator only or the whole PLL synthesizer. The PLL settings for the PLL idle mode are taken over from the last operating mode which can be either receive or transmit mode. The different operating modes can be set in SUM and PUM as well. In SUM the user can program the transceiver via control pins RE/SCLK and TE/SDTA. In PUM the register bits OPMODE are used to select the modes of operation while pins RE/SCLK and TE/SDTA are part of the SCI. 39012 07122 02 Rev. 005 Page 4 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 2 Description of User Modes 2.1 Stand-alone User Mode Operation After power up the transceiver is set to stand-alone user mode. In this mode, pins FS0/SDEN and FS1/LD must be connected to VEE or VCC to set the desired frequency of operation. The logic level at pin FS0/SDEN must not be changed after power up in order to remain in stand-alone user mode. The default settings of the control word bits in stand-alone user mode are described in the frequency selection table. Detailed information about the default settings can be found in the tables of section 5. 2.1.1 Frequency Selection Channel frequency 433.92 MHz 868.3 MHz 315 MHz 915 MHz FS0/SDEN 1 0 1 0 FS1/LD 0 0 1 1 Reference oscillator frequency R counter ratio in RX mode (RR) 7.1505 MHz 32 16 18 32 223.45 kHz 446.91 kHz 397.25 kHz 223.45 kHz 1894 1919 766 4047 VCO frequency in RX mode 423.22 MHz 857.60 MHz 304.30 MHz 904.30 MHz RX frequency 433.92 MHz 868.30 MHz 315.00 MHz 915.00 MHz 32 16 18 32 223.45 kHz 446.91 kHz 397.25 kHz 223.45 kHz 1942 1943 793 4095 VCO frequency in TX mode 433.92 MHz 868.30 MHz 315.00 MHz 915.00 MHz TX frequency 433.92 MHz 868.30 MHz 315.00 MHz 915.00 MHz IF in RX mode 10.7 MHz 10.7 MHz 10.7 MHz 10.7 MHz PFD frequency in RX mode N counter ratio in RX mode (NR) R counter ratio in TX mode (RT) PFD frequency in TX mode N counter ratio in TX mode (NT) In stand-alone user mode, the transceiver can be set to Standby, Receive, Transmit or Idle mode (only PLL synthesizer active) via control pins RE/SCLK and TE/SDTA. The modulation scheme and the LNA gain are set by pins ASK/FSK and GAIN_LNA, respectively. 2.1.2 Operation Mode Operation mode Standby Receive Transmit Idle RE/SCLK 0 1 0 1 TE/SDTA 0 0 1 1 Note: Pins with internal pull-down 39012 07122 02 Rev. 005 Page 5 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 2.1.3 2.1.4 2.2 Modulation Type Modulation type ASK FSK ASK / FSK 0 1 LNA gain high low GAIN_LNA 0 1 LNA Gain Mode Programmable User Mode Operation The transceiver can also be used in programmable user mode. After power-up the first logic change at pin FS0/SDEN enters into this mode. Now full programmability can be achieved via the Serial Control Interface (SCI). 2.2.1 Serial Control Interface Description A 3-wire (SCLK, SDTA, SDEN) Serial Control Interface (SCI) is used to program the transceiver in programmable user mode. At each rising edge of the SCLK signal, the logic value on the SDTA pin is written into a 24-bit shift register. The data stored in the shift register are loaded into one of the 4 appropriate latches on the rising edge of SDEN. The control words are 24 bits lengths: 2 address bits and 22 data bits. The first two bits (bit 23 and 22) are latch address bits. As additional leading bits are ignored, only the least significant 24 bits are serial-clocked into the shift register. The first incoming bit is the most significant bit (MSB). To program the transceiver in multi-channel application, four 24-bit words may be sent: A-word, B-word, C-word and D-word. If individual bits within a word have to be changed, then it is sufficient to program only the appropriate 24-bit word. The serial data input timing and the structure of the control words are illustrated in Fig. 2 and 3. SDTA SCLK 24-BIT SHIFT REGISTER 22 22 22 2 22 ‘00’ SDEN ADDR DECODER Fig. 2: 39012 07122 02 Rev. 005 ‘01’ ‘10’ ‘11’ 22 A - LATCH 22 A-word B - LATCH 22 B-word C - LATCH 22 C-word D - LATCH 22 D-word SCI Block Diagram Page 6 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description Due to the static CMOS design, the SCI consumes virtually no current and it can be programmed in active as well as in standby mode. If the transceiver is set from standby mode to any of the active modes (idle, receive, transmit), the SCI settings remain the same as previously set in one of the active modes, unless new settings are done on the SCI while entering into an active mode. Invalid data SDTA MSB bit 23 LSB bit 22 bit 1 t CH t CWL tCWH Invalid data bit 0 SCLK SDEN t CS tES Fig. 3: 3 tEW tEH Serial Data Input Timing Register Description As shown in the previous section there are four control words which stipulate the operation of the whole chip. In Stand-alone User Mode SUM the intrinsic default values with respect to the applied levels at pins FS0 and FS1 lay down the configuration of the transceiver. In Programmable User Mode (PUM) the register settings can be changed via 3-wire interface SCI. The default settings which vary with the desired operating frequency depend on the voltage levels at the frequency selection pins FS0 and FS1 before entering the PUM. Table 5.1.1 shows the default register settings of different frequency selections. It should be noted that the channel frequency listed below will be achieved with a crystal frequency of 7.1505 MHz. The following table depicts an overview of the register configuration of the TH7122. 39012 07122 02 Rev. 005 Page 7 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 3.1 Register Overview DATA WORD MSB LSB PACTRL 1 1 1 0 0 1 0 0 LNAHYST AFC OA2 1 1 1 0 1 0 3.1.1 Bit No. Depends on FS0/FS1 voltage level after power up default 9 4 3 2 1 0 Bit No. Depends on FS0/FS1 voltage level after power up default 9 8 7 6 5 4 3 2 1 8 7 6 5 4 3 2 1 0 0 Bit No. NR [ 16 : 0 ] default 8 7 6 5 4 3 2 1 Depends on FS0/FS1 voltage level after power up 0 0 Bit No. default NT [ 16 : 0 ] 1 9 ERTM [ 1 :0 ] 0 LDTM [ 1 :0 ] D 0 MODCTRL 1 5 Depends on FS0/FS1 voltage level after power up 23 22 21 20 19 18 17 16 15 14 13 12 11 10 1 0 BAND 0 VCOCUR [ 1 :0 ] C 0 PFDPOL 0 LNACTRL 23 22 21 20 19 18 17 16 15 14 13 12 11 10 1 6 ROMIN [2:0] 1 ROMAX [2:0] 1 DELPLL B 0 Set to 1 1 PKDET 23 22 21 20 19 18 17 16 15 14 13 12 11 10 0 7 RR [9:0] LOCKMODE 1 8 RT [9:0] 1 9 OPMODE [1:0] 0 LNAGAIN 0 Set to 1 0 TXPOWER [ 1 :0 ] 0 CPCUR A 0 MODSEL 0 DATAPOL 0 IDLE 23 22 21 20 19 18 17 16 15 14 13 12 11 10 Default Register Settings for FS0, FS1 FS1 FS0 Channel frequency BAND VCOCUR [1:0] RR [9:0] NR [ 16 :0 ] RT [ 9 :0 ] NT [ 16 : 0 ] 0 0 868.30 MHz 1 11 16d 1919d 16d 1943d 0 1 433.92 MHz 0 01 32d 1894d 32d 1942d 1 0 915.00 MHz 1 11 32d 4047d 32d 4095d 1 1 315.00 MHz 0 00 18d 766d 18d 793d Note: d – decimal code A detailed description of the registers function and their configuration can be found in the following sections. 39012 07122 02 Rev. 005 Page 8 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 3.1.2 A – word Name Bits RR [9:0] Description Reference divider ratio in RX operation mode 4d .. 1023d Operation mode OPMODE [11:10] 00 01 10 11 Standby mode Receive mode Transmit mode Idle mode 0 1 low LNA gain high LNA gain #default LNA gain LNAGAIN [12] #default This selection is valid if bit LNACTR (bit 21 in C-word) is set to internal LNA gain control. not used [13] set to ‘1’ for correct function Output power steps TXPOWER [15:14] 00 01 10 11 P1 P2 P3 P4 #default Set the PA-on condition PACTRL LOCKMODE [16] 0 1 PA is switched on if the PLL locks PA is always on in TX mode Set the PLL locked state observation mode #default 0 before lock only #default Locked state condition will be ascertained only one time afterwards the LD signal remains in high state. [17] 1 before and after lock locked state will be observed permanently Charge Pump output current CPCUR [18] 0 1 #default 260 µA 1300 µA Modulation mode MODSEL [19] 0 1 #default ASK FSK This selection is valid if bit MODCTRL (bit 21 in D-word) is set to internal modulation control. Input data polarity 0 DTAPOL [20] #default normal ‘0’ for space at ASK or fmin at FSK, ‘1’ for mark at ASK or fmax at FSK 1 inverse ‘1’ for space at ASK or fmin at FSK, ‘0’ for mark at ASK or fmax at FSK Active blocks in IDLE mode IDLESEL 39012 07122 02 Rev. 005 [21] 0 1 only RO active whole PLL active Page 9 of 24 #default EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 3.1.3 B – word Name Bits RT [9:0] Description Reference divider ratio in TX operation mode 4d .. 1023d Set the desired steady state current of the reference oscillator ROMIN [12:10] 000 001 010 011 100 101 110 111 0 μA 75 μA 150 μA #default 225 μA 300 μA 375 μA 450 μA 525 μA The control circuitry regulates the current of the oscillator core between the values ROMAX and ROMIN. As the regulation input signal the amplitude on pin RO is used. If the ROMIN value is sufficient to achieve an amplitude of about 400mV on pin RO the current of the reference oscillator core will be set to ROMIN. Otherwise the current will be permanently regulated between ROMAX and ROMIN. If ROMIN and ROMAX are equal no regulation of the oscillator current occurs. Please also note the block description of the reference oscillator in para. 3.1.1 Set the start-up current of the reference oscillator ROMAX [15:13] 000 001 010 011 100 101 110 111 0 μA 75 μA 150 μA 225 μA 300 μA 375 μA 450 μA 525 μA #default Set the start-up current of the reference oscillator core. Please also note the description of the ROMIN register and the block description of the reference oscillator which can be seen above. OA2 operation OA2 [16] 0 1 #default disabled enabled OA2 can be enabled in FSK receive mode. OA2 is disabled in ASK mode receive. Internal AFC feature AFC [17] 0 1 #default disabled enabled Hysteresis on pin GAIN_LNA LNAHYST [18] 0 1 disabled enabled - typical 340 mV (V0→1 = 1.56V, V1→0 = 1.22V) #default Delayed start of the PLL DELPLL [19] PLL starts at the reference oscillator start-up 0 undelayed start 1 starts after 8 valid RO-cycles #default PLL starts after 8 valid RO-cycles before entering an active mode to ensure reliable oscillation of the reference oscillator. not used [20] set to ‘1’ for correct function RSSI Peak Detector 0 PKDET [21] #default disabled The RSSI output signal directly feeds the data slicer setup by means of OA1. 1 enabled In ASK receive mode the RSSI Peak Detector output is multiplexed to pin INT2/PDO. 39012 07122 02 Rev. 005 Page 10 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 3.1.4 C – word Name Bits NR [16:0] BAND [17] Description Feedback divider ratio in RX operation mode 64d .. 131071d 0 1 Set the desired frequency range recommended at fRF < 500 MHz recommended at fRF > 500MHz Some tail current sources are linked to this bit in order to save current for low frequency operations. VCO active current VCOCUR [19:18] 00 01 10 11 low current (300 µA) standard current (500 µA) high1 current (700 µA) high2 current (900 µA) Phase Detector polarity 0 PFDPOL LNACTRL [20] negative #default VCO OUTPUT FREQUENCY pos neg 1 positive 0 LNA gain control mode external LNA gain control VCO INPUT VOLTAGE #default LNA gain will be set via pin GAIN_LNA. [21] 1 internal LNA gain control LNA gain will be set via bit LNAGAIN (bit 12 in A-word). Nevertheless pin GAIN_LNA must be connected to either VCC or VEE. 39012 07122 02 Rev. 005 Page 11 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 3.1.5 D – word Name Bits NT [16:0] Description Feedback divider ratio in TX operation mode 64d .. 131071d Set the unlock condition of the PLL ERTM [18:17] 00 01 10 11 2 clocks #default 4 clocks 8 clocks 16 clocks Set the maximum allowed number of reference clocks (1/fRO) during the phase detector output signals (UP & DOWN) can be in-consecutive. Set the lock condition of the PLL LDTM MODCTRL [20:19] 00 01 10 11 4 clocks 16 clocks #default 64 clocks 256 clocks 0 Set mode of modulation control: external modulation control Set the minimum number of consecutive edges of phase detector output cycles, without appearance of any unlock condition. #default Modulation will be set via pin ASK/FSK. [21] 1 internal modulation control Modulation will be set via bit MODSEL (bit 19 in A-word). Nevertheless pin ASK/FSK must be connected to either VCC or VEE. 39012 07122 02 Rev. 005 Page 12 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description RSSI GND OUT_DEM GND FSK Application Circuit Programmable User Mode (internal AFC option) IN_DTA GND OUT_DTA GND 4.1 GND SDTA SDEN SCLK Application Circuits VCC GND 4 2 1 4 3 2 1 4 3 2 1 4 3 2 1 12 3 CX2 CX1 9 VEE_RO RO 10 IN_DTA 12 ASK/FSK 13 TH7122 CTX0 LRX2 LTX1 32 OUT_MIX 31 VEE_IF CB5 IN_IFA 1 C2 CTX1 CTX2 30 IN_MIX 29 GAIN_LNA 28 OUT_LNA 27 VEE_LNA CRX0 RP CERDIS RL0 CERFIL CB4 C1 L1 CB1 RB1 VCC LTX0 26 IN_LNA VCC_IF 2 25 OUT_PA 23 LF CTX4 C4 C3 INT2/PDO 4 IN_DEM 3 24 50 INT1 5 22 VEE_PLL RPS VCC OUT_DEM 6 21 TNK_LO RF C5 RSSI 7 20 VCC_PLL CF2 39012 07122 02 Rev. 005 OUT_DTA 8 19 FS1/LD L0 CB2 XTAL 18 VEE_DIG CB6 C0 CF1 VCC_DIG 14 FS0/SDEN 17 RE/SCLK 15 16 CB7 FSK_SW 11 12 3 RE/SCLK 12 3 TE/SDTA ASK/FSK RS2 RS3 RS1 12 3 FS0/SDEN 12 3 FS1/LD CB0 TX_OUT RX_IN Page 13 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 4.1.1 Board Component Values for FSK Reception Value @ 433.92 MHz Value @ 868.3 MHz Value @ 915 MHz Tol. 0.47 pF NIP 1.8 pF 1.5 pF ±5% VCO tank capacitor 3.9 pF 4.7 pF 1.8 pF 1 pF ±5% LNA output tank capacitor 0603 1.5 pF 1.5 pF 1.5 pF 1.5 pF ±5% MIX input matching capacitor C3 0603 10 nF 10 nF 10 nF 10 nF ±10% data slicer capacitor C4 0603 330 pF 330 pF 330 pF 330 pF ±5% Part Size Value @ 315 MHz C0 0603 C1 0603 C2 Description demodulator output low-pass capacitor, depending on data rate C5 0603 1.5 nF 1.5 nF 1.5 nF 1.5 nF ±10% RSSI output low pass capacitor CB0 1210 10 μF 10 μF 10 μF 10 μF ±20% de-coupling capacitor CB1 0603 10 nF 10 nF 10 nF 10 nF ±10% de-coupling capacitor CB2 0603 330 pF 330 pF 330 pF 330 pF ±10% de-coupling capacitor CB4 0603 10 nF 10 nF 10 nF 10 nF ±10% de-coupling capacitor CB5 0603 100 nF 100 nF 100 nF 100 nF ±10% de-coupling capacitor CB6 0603 100 pF 100 pF 100 pF 100 pF ±10% de-coupling capacitor CB7 0603 100 nF 100 nF 100 nF 100 nF CF1 0603 1 nF 1 nF 1 nF 1 nF ±10% loop filter capacitor CF2 0603 100 pF 68 pF 150 pF 82 pF ±5% loop filter capacitor CX1 0805 8.2 pF 10 pF 12 pF 12 pF ±5% RO capacitor for FSK (Δf = ±20 kHz) CX2 0805 150 pF 56 pF 18 pF 15 pF ±5% RO capacitor for FSK (Δf = ±20 kHz) CRX0 0603 100 pF 100 pF 100 pF 100 pF ±5% RX coupling capacitor CTX0 0603 10 pF 10 pF 10 pF 10 pF ±5% TX coupling capacitor CTX1 0603 10 pF 6.8 pF 5.6 pF 4.7 pF ±5% TX impedance matching capacitor CTX2 0603 10 pF 6.8 pF 3.9 pF 3.9 pF ±5% TX impedance matching capacitor CTX4 0603 12 pF 4.7 pF 2.2 pF 1.8 pF ±5% TX impedance matching capacitor RB1 0603 100 Ω 100 Ω 100 Ω 100 Ω ±5% protection resistor 33 kΩ 33 kΩ 33 kΩ 33 kΩ ±5% loop filter resistor ±10% de-coupling capacitor RF 0603 RP 0603 3.3 KΩ 3.3 KΩ 3.3 KΩ 3.3 KΩ ±5% CERDIS loading resistor RL0 0603 390 Ω 390 Ω 390 Ω 390 Ω ±5% CERFIL loading, optionally RPS 0603 18 kΩ 33 kΩ 43 kΩ 43 kΩ ±5% power-select resistor RS1...RS3 0603 10 kΩ 10 kΩ 10 kΩ 10 kΩ ±5% protection resistor L0 0603 56 nH 33 nH 4.7 nH 3.9 nH ±5% VCO tank inductor from Würth-Elektronik (WE-KI series) or equivalent part L1 0603 33 nH 15 nH 4.7 nH 4.7 nH ±5% LNA output tank inductor from Würth-Elektronik (WE-KI series) or equivalent part LRX2 0603 82 nH 56 nH 15 nH 15 nH ±5% LTX0 0603 15 nH 15 nH 3.9 nH 3.9 nH ±5% LTX1 0603 33 nH 33 nH 10 nH 10 nH ±5% XTAL HC49 SMD 7x5 7.1505 MHz ±20ppm cal., ±20ppm temp. CERFIL SMD 3.45x3.1 SFECF10M7HA00 B3dB = 180 kHz CERDIS SMD 4.5x2 CDSCB10M7GA136 Note: impedance matching inductor from Würth-Elektronik (WE-KI series) or equivalent part fundamental-mode crystal from: Telcona/Hong Kong X’tals C5L7150500D10F3EHK02 ceramic filter from Murata, or equivalent part ceramic Discriminator from Murata, or equivalent part - NIP – not in place, may be used optionally 39012 07122 02 Rev. 005 Page 14 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 1 ASK/FSK GND OUT DEM GND 1 1 C5 C4 1 RE 1 CX2 C3 CX1 1 TE CB7 1 FS0 1 1 FS1 XTAL 3 RS3 RS2 RS1 RSSI GND OUT DTA 1 CB0 GND LD VCC GND IN DTA SCLK SDEN SDTA GND GND Component Arrangement Top Side for FSK Reception VCC 4.1.2 L0 CF1 CF2 CB6 CERDIS RF CB5 RP CB4 RL0 RPS CRX0 L1 LRX2 RB1 Melexis LTX1 EVB7122_003 CTX1 RX_input CTX2 TX_output 39012 07122 02 Rev. 005 C1 CB1 CB2 LTX0 CTX0 C2 CTX4 Page 15 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description GND SDTA SDEN SCLK IN_DTA GND OUT_DTA GND RSSI GND OUT_DEM GND ASK Application Circuit Programmable User Mode (normal data slicer option) VCC GND 2 1 4 3 2 1 4 3 2 1 4 3 2 1 12 3 12 3 RE/SCLK TE/SDTA ASK/FSK RS2 RS3 RS1 12 3 FS0/SDEN 12 3 FS1/LD CB0 12 3 4.2 CX1 XTAL CRX0 CTX1 CTX2 9 VEE_RO FSK_SW 11 RO 10 32 OUT_MIX 31 VEE_IF 30 IN_MIX 29 GAIN_LNA IN_IFA 1 RL0 C2 CERFIL C1 CB1 L1 LTX1 CB5 RB1 VCC LRX2 26 IN_LNA 25 OUT_PA CTX0 LTX0 28 OUT_LNA VCC_IF 2 27 VEE_LNA IN_DEM 3 23 LF CTX4 C3 INT2/PDO 4 22 VEE_PLL 24 CPS INT1 5 TH7122 21 TNK_LO RPS VCC IN_DTA 12 ASK/FSK 13 OUT_DEM 6 20 VCC_PLL RF CF1 C5 RSSI 7 19 FS1/LD L0 CB2 OUT_DTA 8 18 VEE_DIG CB6 C0 CF2 VCC_DIG 14 16 FS0/SDEN 17 RE/SCLK 15 CB7 TX_OUT RX_IN 50 Software Settings for ASK fRO = 8.0000MHz CPCUR VCOCUR Channel frequency RR NR RT NT RX TX RX TX 315.00 MHz 80 3043 8 315 260µA 1300µA 300µA 900µA 434.00 MHz 80 4233 8 434 260µA 1300µA 300µA 900µA 915.00 MHz 80 9043 8 915 260µA 1300µA 300µA 900µA 39012 07122 02 Rev. 005 Page 16 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 4.2.1 Board Component Values for ASK (normal data slicer option) Part Size Value @ 315 MHz Value @ 434 MHz Value @ 915 MHz Tol. Description C0 0603 1.8 pF 2.2 pF 1.8 pF ±5% VCO tank capacitor C1 0603 3.9 pF 4.7 pF 1 pF ±5% LNA output tank capacitor C2 0603 1.5 pF 1.0 pF 1.5 pF ±5% MIX input matching capacitor C3 0603 10 nF 10 nF 10 nF ±10% data slicer capacitor C5 0603 1.5 nF 1.5 nF 1.5 nF ±10% RSSI output low pass capacitor CB0 1210 10 μF 10 μF 10 μF ±20% de-coupling capacitor CB1 0603 10 nF 10 nF 10 nF ±10% de-coupling capacitor CB2 0603 330 pF 330 pF 330 pF ±10% de-coupling capacitor CB5 0603 100 nF 100 nF 100 nF ±10% de-coupling capacitor CB6 0603 100 pF 100 pF 100 pF ±10% de-coupling capacitor CB7 0603 100 nF 100 nF 100 nF ±10% de-coupling capacitor CF1 0603 100 pF 100 pF 100 pF ±10% loop filter capacitor CF2 0603 39 pF 39 pF 39 pF ±5% loop filter capacitor CPS 0603 1 nF 1 nF 1 nF ±10% power-select capacitor CX1 0805 18 pF 18 pF 18 pF ±5% RO capacitor CRX0 0603 100 pF 100 pF 10 pF ±5% RX coupling capacitor CTX0 0603 10 pF 10 pF 10 pF ±5% TX coupling capacitor CTX1 0603 10 pF 6.8 pF 4.7 pF ±5% TX impedance matching capacitor CTX2 0603 10 pF 6.8 pF 3.9 pF ±5% TX impedance matching capacitor CTX4 0603 12 pF 4.7 pF 1.8 pF ±5% TX impedance matching capacitor RB1 0603 100 Ω 100 Ω 100 Ω ±5% protection resistor RF 0603 33 kΩ 33 kΩ 33 kΩ ±5% loop filter resistor CERDIS loading resistor RP 0603 3.3 KΩ 3.3 KΩ 3.3 KΩ ±5% RL0 0603 390 Ω 390 Ω 390 Ω ±5% CERFIL loading, optionally RPS 0603 18 kΩ 33 kΩ 43 kΩ ±5% power-select resistor RS1...RS3 0603 10 kΩ 10 kΩ 10 kΩ ±5% protection resistor L0 0603 47 nH 27 nH 3.9 nH ±5% VCO tank inductor from Würth-Elektronik (WE-KI series) or equivalent part L1 0603 33 nH 15 nH 4.7 nH ±5% LNA output tank inductor from Würth-Elektronik (WE-KI series) or equivalent part LRX2 0603 82 nH 56 nH 15 nH ±5% LTX0 0603 15 nH 15 nH 3.9 nH ±5% LTX1 0603 33 nH 33 nH 10 nH ±5% XTAL HC49 SMD 7x5 8.0000 MHz ±20ppm cal., ±20ppm temp. CERFIL SMD 3.45x3.1 SFECF10M7HA00 B3dB = 180 kHz 39012 07122 02 Rev. 005 Page 17 of 24 impedance matching inductor from Würth-Elektronik (WE-KI series) or equivalent part fundamental-mode crystal from: Telcona/Hong Kong X’tals C5L8000000D10F3EHK01 ceramic filter from Murata, or equivalent part EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 1 ASK/FSK GND OUT DEM GND 1 1 C5 1 1 1 C3 RE 1 CX1 CB7 1 FS0 TE 1 FS1 XTAL 3 RS3 RS2 RS1 RSSI GND OUT DTA 1 CB0 GND LD VCC GND IN DTA SCLK SDEN SDTA GND GND Component Arrangement Top Side for ASK Reception (normal data slicer option) VCC 4.2.2 L0 C0 CF1 CF2 CB6 RF CB5 RL0 RPS CPS CRX0 L1 LRX2 RB1 Melexis LTX1 EVB7122_003 CTX1 RX_input CTX2 TX_output 39012 07122 02 Rev. 005 C1 CB1 CB2 LTX0 CTX0 C2 CTX4 Board size is 39.5mm x 56.5mm Page 18 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description GND SDTA SDEN SCLK IN_DTA GND OUT_DTA GND RSSI GND OUT_DEM GND ASK Application Circuit with Peak Detector Option VCC GND 2 1 4 3 2 1 4 3 2 1 4 3 2 1 12 3 12 3 RE/SCLK TE/SDTA ASK/FSK RS2 RS3 RS1 12 3 FS0/SDEN 12 3 FS1/LD CB0 12 3 4.3 CX1 XTAL LRX2 9 VEE_RO RO 10 FSK_SW 11 IN_DTA 12 ASK/FSK 13 CRX0 CTX2 32 OUT_MIX 31 VEE_IF 30 IN_MIX C6 CB5 IN_IFA 1 RL0 C2 CERFIL C1 CB1 L1 LTX1 R1 RB1 VCC CTX0 LTX0 26 IN_LNA 25 OUT_PA CTX4 29 GAIN_LNA VCC_IF 2 28 OUT_LNA 23 LF 27 VEE_LNA IN_DEM 3 CTX1 VCC INT2/PDO 4 22 VEE_PLL 24 R2 INT1 5 TH7122 21 TNK_LO RPS CPS OUT_DEM 6 20 VCC_PLL RF CF1 C5 RSSI 7 19 FS1/LD L0 CB2 OUT_DTA 8 18 VEE_DIG CB6 C0 CF2 VCC_DIG 14 16 FS0/SDEN 17 RE/SCLK 15 CB7 TX_OUT RX_IN 50 Software Settings for ASK fRO = 8.0000MHz CPCUR VCOCUR Channel frequency RR NR RT NT RX TX RX TX 315.00 MHz 80 3043 8 315 260µA 1300µA 300 µA 900µA 434.00 MHz 80 4233 8 434 260µA 1300µA 300 µA 900µA 915.00 MHz 80 9043 8 915 260µA 1300µA 300 µA 900µA 39012 07122 02 Rev. 005 Page 19 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 4.3.1 Board Component Values for ASK (peak detector option) Part Size Value @ 315 MHz Value @ 434 MHz Value @ 915 MHz Tol. Description C0 0603 1.8 pF 2.2 pF 1.8 pF ±5% VCO tank capacitor C1 0603 3.9 pF 4.7 pF 1 pF ±5% LNA output tank capacitor C2 0603 1.5 pF 1.0 pF 1.5 pF ±5% MIX input matching capacitor C5 0603 1.5 nF 1.5 nF 1.5 nF ±10% RSSI output low pass capacitor C6 0603 100 nF 100 nF 100 nF ±10% PKDET capacitor CB0 1210 10 μF 10 μF 10 μF ±20% de-coupling capacitor CB1 0603 10 nF 10 nF 10 nF ±10% de-coupling capacitor CB2 0603 330 pF 330 pF 330 pF ±10% de-coupling capacitor CB5 0603 100 nF 100 nF 100 nF ±10% de-coupling capacitor CB6 0603 100 pF 100 pF 100 pF ±10% de-coupling capacitor CB7 0603 100 nF 100 nF 100 nF ±10% de-coupling capacitor CF1 0603 100 pF 100 pF 100 pF ±10% loop filter capacitor CF2 0603 39 pF 39 pF 39 pF ±5% loop filter capacitor CPS 0603 1 nF 1 nF 1 nF ±10% power-select capacitor CX1 0805 18 pF 18 pF 18 pF ±5% RO capacitor CRX0 0603 100 pF 100 pF 10 pF ±5% RX coupling capacitor CTX0 0603 10 pF 10 pF 10 pF ±5% TX coupling capacitor CTX1 0603 10 pF 6.8 pF 4.7 pF ±5% TX impedance matching capacitor CTX2 0603 10 pF 6.8 pF 3.9 pF ±5% TX impedance matching capacitor CTX4 0603 12 pF 4.7 pF 1.8 pF ±5% TX impedance matching capacitor R1 0603 100 kΩ 100 kΩ 100 kΩ ±5% PKDET resistor R2 0603 680 kΩ 680 kΩ 680 kΩ ±5% PKDET resistor RB1 0603 100 Ω 100 Ω 100 Ω ±5% protection resistor RF 0603 33 kΩ 33 kΩ 33 kΩ ±5% loop filter resistor RP 0603 3.3 KΩ 3.3 KΩ 3.3 KΩ ±5% CERDIS loading resistor RL0 0603 390 Ω 390 Ω 390 Ω ±5% CERFIL loading, optionally RPS 0603 18 kΩ 33 kΩ 43 kΩ ±5% power-select resistor RS1...RS3 0603 10 kΩ 10 kΩ 10 kΩ ±5% protection resistor L0 0603 47 nH 27 nH 3.9 nH ±5% VCO tank inductor from Würth-Elektronik (WE-KI series) or equivalent part L1 0603 33 nH 15 nH 4.7 nH ±5% LNA output tank inductor from Würth-Elektronik (WE-KI series) or equivalent part LRX2 0603 82 nH 56 nH 15 nH ±5% LTX0 0603 15 nH 15 nH 3.9 nH ±5% LTX1 0603 33 nH 33 nH 10 nH ±5% XTAL HC49 SMD 7x5 8.0000 MHz ±20ppm cal., ±20ppm temp. CERFIL SMD 3.45x3.1 SFECF10M7HA00 B3dB = 180 kHz 39012 07122 02 Rev. 005 Page 20 of 24 impedance matching inductor from Würth-Elektronik (WE-KI series) or equivalent part fundamental-mode crystal from: Telcona/Hong Kong X’tals C5L8000000D10F3EHK01 ceramic filter from Murata, or equivalent part EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 1 ASK/FSK GND OUT DEM GND 1 1 C5 R2 R1 1 RE 1 1 TE CB7 1 FS0 1 1 FS1 XTAL 3 RS3 RS2 RS1 RSSI GND OUT DTA 1 CB0 C6 CX1 GND LD VCC GND IN DTA SCLK SDEN SDTA GND GND Component Arrangement Top Side for ASK Reception (peak detector option) VCC 4.3.2 L0 C0 CF1 CF2 CB6 RF CB5 RL0 RPS CPS CRX0 L1 LRX2 RB1 Melexis LTX1 EVB7122_003 CTX1 RX_input CTX2 TX_output 39012 07122 02 Rev. 005 C1 CB1 CB2 LTX0 CTX0 C2 CTX4 Board size is 39.5mm x 56.5mm Page 21 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description Evaluation Board Layouts GND GND RE TE FS0 FS1 Melexis EVB7122_003 PCB bottom view PCB top view 6 OUT DEM RSSI GND GND OUT DTA IN DTA ASK/FSK SCLK GND SDTA GND Board layout data in Gerber format is available, board size is 39.5mm x 56.5mm. GND LD VCC VCC • SDEN 5 Board Variants Type EVB7122 Frequency/MHz Modulation –315 –FSK –433 –ASK –868 –FM according to section 4.2 / 4.3 Board Execution –A antenna version –C connector version –915 Note: 39012 07122 02 Rev. 005 available EVB setups Page 22 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 7 Package Description The device TH7122 is RoHS compliant. D D1 A 24 17 16 25 E b e E1 32 9 1 8 A2 A1 12° +1° 0.25 (0.0098) c L 12° +1° Fig. 4: .10 (.004) LQFP32 (Low profile Quad Flat Package) All Dimension in mm, coplanaríty < 0.1mm E1, D1 E, D A A1 A2 e b c L α 7.00 9.00 1.40 1.60 0.05 0.15 1.35 1.45 0.8 0.30 0.45 0.09 0.20 0.45 0.75 0° 7° 0.053 0.057 0.031 0.012 0.018 0.0035 0.0079 0.018 0.030 0° 7° min max All Dimension in inch, coplanaríty < 0.004” min max 7.1 0.276 0.354 0.055 0.063 0.002 0.006 Soldering Information • 39012 07122 02 Rev. 005 The device TH7122 is qualified for MSL3 with soldering peak temperature 260 deg C according to JEDEC J-STD-20 Page 23 of 24 EVB Description June/07 EVB7122 27 to 930MHz Transceiver Evaluation Board Description 8 Disclaimer 1) The information included in this documentation is subject to Melexis intellectual and other property rights. Reproduction of information is permissible only if the information will not be altered and is accompanied by all associated conditions, limitations and notices. 2) Any use of the documentation without the prior written consent of Melexis other than the one set forth in clause 1 is an unfair and deceptive business practice. Melexis is not responsible or liable for such altered documentation. 3) The information furnished by Melexis in this documentation is provided ’as is’. Except as expressly warranted in any other applicable license agreement, Melexis disclaims all warranties either express, implied, statutory or otherwise including but not limited to the merchantability, fitness for a particular purpose, title and non-infringement with regard to the content of this documentation. 4) Notwithstanding the fact that Melexis endeavors to take care of the concept and content of this documentation, it may include technical or factual inaccuracies or typographical errors. Melexis disclaims any responsibility in connection herewith. 5) Melexis reserves the right to change the documentation, the specifications and prices at any time and without notice. Therefore, prior to designing this product into a system, it is necessary to check with Melexis for current information. 6) Melexis shall not be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use, interrupt of business or indirect, special incidental or consequential damages, of any kind, in connection with or arising out of the furnishing, performance or use of the information in this documentation. 7) The product described in this documentation is intended for use in normal commercial applications. Applications requiring operation beyond ranges specified in this documentation, unusual environmental requirements, or high reliability applications, such as military, medical life-support or life-sustaining equipment are specifically not recommended without additional processing by Melexis for each application. 8) Any supply of products by Melexis will be governed by the Melexis Terms of Sale, published on www.melexis.com. © Melexis NV. All rights reserved. For the latest version of this document, go to our website at: www.melexis.com Or for additional information contact Melexis Direct: Europe, Africa: Americas: Asia: Phone: +32 1367 0495 E-mail: [email protected] Phone: +1 603 223 2362 E-mail: [email protected] Phone: +32 1367 0495 E-mail: [email protected] ISO/TS 16949 and ISO14001 Certified 39012 07122 02 Rev. 005 Page 24 of 24 EVB Description June/07