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| DEVELOPMENT KIT (Info Click here) * * * * Designed for Short-Range Wireless Data Communications Supports RF Data Transmission Rates Up to 115.2 kbps 3 V, Low Current Operation plus Sleep Mode Up to 10 mW Transmitter Power DR7001 315.00 MHz Transceiver Module The DR7001 hybrid transceiver module is ideal for short-range wireless data applications where robust operation, small size, low power consumption and low cost are required. The DR7001 utilizes RFM's TR7001 amplifier-sequenced hybrid (ASH) architecture to achieve this unique blend of characteristics. All critical RF functions are contained in the hybrid, simplifying and speeding design-in. The receiver section of the DR7001 is sensitive and stable. A wide dynamic range log detector, in combination with digital AGC and a compound data slicer, provide robust performance in the presence of on-channel interference or noise. Two stages of SAW filtering provide excellent receiver out-of-band rejection. The transmitter includes provisions for both onoff keyed (OOK) and amplitude-shift keyed (ASK) modulation. The transmitter employs SAW filtering to suppress output harmonics, facilitating compliance with FCC and similar regulations. Absolute Maximum Ratings Rating Power Supply and All Input/Output Pins Non-Operating Case Temperature Soldering Temperature (10 seconds, 5 cycles maximum) Value -0.3 to +4.0 -50 to +100 260 Units V C C Electrical Characteristics Characteristic Operating Frequency Data Modulation Type OOK Data Rate ASK Data Rate Receiver Performance (OOK @ 4.8kbps) Sensitivity, 4.8 kbps, 10-3 BER, AM Test Method Input Current, 4.8 kbps, 3.0V Supply Sensitivity, 19.2 kbps, 10-3 BER, AM Test Method Input Current, 19.2 kbps, 3.0V Supply Transmitter Performance (OOK @ 4.8kbps) Peak RF Output Power, 235 A TXMOD Current Peak Current, 235 A TXMOD Current OOK Turn On/Turn Off Times ASK Output Rise/Fall Times Power Supply Voltage Range (including I/O) Operating Ambient Temperature Power Supply Voltage Ripple Sym fo Notes Minimum 314.800 Typical Maximum 315.200 Units MHz OOK/ASK 30 115.2 kb/s kb/s -108 4.2 -104 4.25 dBm mA dBm mA POL ITPL tON/tOFF tTR/tTF Vcc TA 2.2 -40 10 32 12/6 1.1/1.1 3.7 +85 10 dBm mA s s Vdc C mVp-p www.RFM.com E-mail: info@rfm.com (c)2008 by RF Monolithics, Inc. Page 1 of 7 DR7001 - 4/8/08 DR7001 Pinout and Dimensions 1000 mils 900 mils GND- 1 PKDET- 2 RX BBO- 3 GND- 4 RX- 5 TX- 6 LPFILT- 7 TX/RX- 8 OOK/ASK- 9 SLEEP- 10 20- GND 19- VCC 18- CFG CLK 17- CFG DATA 16- RX CLK 15- 2G/3G MODE 14- 4.8Kbps/19.2Kbps 13- GND SC/DSSS 12- GND MODE 11- GND 1000 mils www.RFM.com E-mail: info@rfm.com (c)2008 by RF Monolithics, Inc. Page 2 of 7 DR7001 - 4/8/08 Pin Descriptions Pin 1,4,20 19 Name GND VCC In/Out GND is the ground pin. VCC is a positive supply voltage pin. Description This pin is the peak detector output. A 0.022uF capacitor to ground (C5) sets the peak detector attack and decay times, which have a fixed 1:1000 ratio. For most applications, these time constants should be coordinated with the base-band time constant. For a given base-band capacitor CBBO , the capacitor value CPKD is: CPKD = 2.0* CBBO , where CBBO and CPKD are in pF 2 PKDET Out A 10% ceramic capacitor should be used at this pin. This time constant will vary between tPKA and 1.5* tPKA with variations in supply voltage, temperature, etc. The capacitor is driven from a 200 ohm "attack" source, and decays through a 200 K load. The peak detector is used to drive the "dB-below-peak" data slicer and the AGC release function. The peak detector capacitor is discharged in the receiver power-down (sleep) mode and in the transmit modes. See the description of Pin 3 below for further information. A 0.022uF capacitor is installed for operation at 4.8kbps. This pin is connected directly to the transceiver BBOUT pin. This pin drives the CMPIN pin through a coupling capacitor, CBBO = 0.01uF (C4), for internal data slicer operation at 4.8kbps. CBBO = 11.2*SPMAX, where SPMAX is the maximum signal pulse width in s and CBBO is in pF The nominal output impedance of this pin is 1 K.The BBOUT signal changes about 10 mV/dB, with a peak-topeak signal level of up to 450 mV. The signal at BBOUT is riding on a 1.5 Vdc value that varies somewhat with supply voltage and temperature, so it should be coupled through a capacitor to an external load. When an external data recovery process is used with AGC, BBOUT must be coupled to the external data recovery process and CMPIN by separate series coupling capacitors. The output impedance of this pin becomes very high in sleep mode, preserving the charge on the coupling capacitor. The value of C3 on the circuit board has been chosen to match typical data encoding schemes at 4.8 kbps. If C4 is modified to support higher data rates and/or different data encoding schemes and PK DET is being used, make the value of the peak detector capacitor C5 about 2x the value of CBBO. RXDATA is the receiver data output pin. It is a CMOS output. The signal on this pin can come from one of two sources. The default source is directly from the output of the data slicer circuit. The alternate source is from the radio's internal data and clock recovery circuit. When the internal data and clock recovery circuit is used, the signal on RXDATA is switched from the output of the data slicer to the output of the data and clock recovery circuit when a packet start symbol is detected. Each recovered data bit is then output on the rising edge of a RXDCLK pulse (Pin 16), and is stable for reading on the falling edge of the RXDCLK pulse. The transmitter RF output voltage is proportional to the input current to this pin. A resistor in series with the TXMOD input is normally used to adjust the peak transmitter output. Full transmitter power (10 mW) requires about 235 A of drive current. The transmitter output power PO for a 3 Vdc supply voltage is approximately: PO = 180*(ITXM)2, where PO is in mW and the modulation current ITXM is in mA 6 TXMOD In The practical power control range is 10 to -50 dBm. A 5% TXMOD resistor value is recommended. Internally, this pin is connected to the base of a bipolar transistor with a small emitter resistor. The voltage at the TXMOD input pin is about 0.85 volt with 235 uA of drive current. This pin accepts analog modulation and can be driven with either logic level data pulses (unshaped) or shaped data pulses. A series 9.1 kilohm resistor is installed to provide +10dBm average output power with a +3Vdc input. This pin is the receiver low-pass filter bandwidth adjust. The filter bandwidth is set by a resistor RLPF (R4) between this pin and ground. The resistor value can range from 510 K to 3 K, providing a filter 3 dB bandwidth fLPF from 5 to 600 kHz. The resistor value is determined by: 7 LPFADJ In RLPF = (0.0006*fLPF) -1.069 where RLPF is in kilohms, and fLPF is in kHz A 5% resistor should be used to set the filter bandwidth. This will provide a 3 dB filter bandwidth between fLPF and 1.3* fLPF with variations in supply voltage, temperature, etc. The filter provides a three-pole, 0.05 degree equiripple phase response. A 470 kilohm resistor to GND is installed to provide a 3dB filter bandwidth of 5.275kHz. Connect an external 1%, 243kilohm resistor to GND for 19.2kbps operation. 8 TX/RX In Logic Input (CMOS compatible). This pin, in 3G mode, selects the operation of the TR7001 . Pull this pin `High' for Transmit Mode. Pull this pin `Low' for Receive mode. Do not allow this pin to float. Logic Input (CMOS compatible). This pin, in 3G mode, selects the operation of the TR7001. Pull this pin `High' for OOK Transmit/Receive mode. Pull this pin `Low' for ASK Transmit/Receive mode. Do not allow this pin to float. 3 BBOUT Out 5 RXDATA Out 9 OOK/ASK In www.RFM.com E-mail: info@rfm.com (c)2008 by RF Monolithics, Inc. Page 3 of 7 DR7001 - 4/8/08 Pin 10 Name SLEEP In/Out In Description Logic Input (CMOS compatible). This pin, in 3G mode, puts the TR7001 into Sleep mode. Pull this pin `High' for Sleep Mode. Pull this pin `Low' for operation mode. Do not allow this pin to float. Logic Input (CMOS compatible). This pin, in 3G mode, enables the Start Vector Recognition circuit. The TR7001 will not output a recovered clock on RXDCLK (pin 16) until the start vector, 0xE2E2, has been recognized. Pull this pin `High' to enable Start Vector Recognition. Pull this pin `Low' then `High' to reset the Start Vector Recognition circuit. Do not allow this pin to float. Keep this pin pulled `Low'. Keep this pin pulled `Low'. Logic Input (CMOS compatible). This pin, in 3G mode, selects the receive data rate of the DR7001. Pull this pin `High' to select 4.8kbps. Pull this pin `Low' to select 19.2kbps. Do not allow this pin to float. NOTE: Operating at 19.2kbps will require the value of C4, C5 and R4 to change to accommodate the higher data rate. See the TR7001 datasheet for recommended component values. Logic Input (CMOS compatible). This pin sets the processor to operate in 3G mode. The power-up operating configuration of the TR7001 device is controlled by the J2 jumper setting. When DC power is applied to the DR7001 with J2 installed across 2-3, this pin should be pulled `High' immediately after power-up to initiate 3G mode. Failure to pull pin 15 `High' after power-up will cause the processor to remain inactive. Pulling this pin `High' wakes the processor for 3G mode operation. When DC power is applied to the DR7001 with J2 installed across 1-2, this pin should be held `Low' to operate in 2G mode. Do not allow this pin to float. RXDCLK is the clock output from the data and clock recovery circuit. RXDCLK is a CMOS output. When the radio's internal data and clock recovery circuit is not used, RXDCLK is a steady low value. When the internal data and clock recovery is used, RXDCLK is low until a packet start symbol is detected at the output of the data slicer. Each bit following the start symbol is output at RXDATA on the rising edge of a RXDCLK pulse, and is stable for reading on the falling edge of the RXDCLK pulse. Once RXDCLK is activated by the detection of a start symbol, it remains active until SVEN (pin 11) is reset. See Pin 11 description. In 3G control mode, CFGDAT is a bi-directional CMOS logic pin. When CFG (Pin 19) is set to a logic 1, configuration data can be clocked into or out of the radio's configuration registers through CFGDAT using CFGCLK (Pin 18). Data clocked into CFGDAT is transferred to a control register each time a group of 8 bits is received. Pulses on CFGCLK are used to clock configuration data into and out of the radio through CFGDAT. When writing through CFGDAT, a data bit is clocked into the radio on the rising edge of a CFGCLK pulse. When reading through CFGDAT, data is output on the rising edge of the CFGCLK pulse and is stable for reading on the falling edge of the CFGCLK. Refer to the TR7001 datasheet for detailed timing. This pin is a high impedance input (CMOS compatible) in 2G mode. This pin must be held at a logic level. Do not allow this pin to float. In 3G control mode, pulses on CFGCLK are used to clock configuration data into and out of the radio through CFGDAT (Pin 17). When writing to CFGDAT, a data bit is clocked into the radio on the rising edge of a CFGCLK pulse. When reading through CFGDAT, data is stable for reading on the falling edge of the CFGCLK. Refer to the TR7001 datasheet for detailed timing. This pin is a high impedance input (CMOS compatible) in 2G mode. Do not allow this pin to float. 11 SVEN In 12 13 Not Used Not Used 4.8KBPS/ 19.2KBPS 14 In 15 3G SEL In 16 RXDCLK Out 17 CFGDAT In/Out 18 CFGCLK In/Out www.RFM.com E-mail: info@rfm.com (c)2008 by RF Monolithics, Inc. Page 4 of 7 DR7001 - 4/8/08 Theory of Operation The DR7001 evaluation module is centered around the TR7001 ASH Transceiver. The DR7001 may operate in backward compatible 2G mode, or in the enhanced 3G mode. Since 3G mode requires the use of a serial I/O port to configure internal registers, the module includes an on-board Silicon Labs C8051F330 microcontroller to control access to the serial port. When 2G mode is enabled the microcontroller serves no function. When 3G mode is enabled the microcontroller constantly scans pins 8-15 for a change of logic state. When a state change is detected on one or more of these pins, the microcontroller automatically updates the internal configuration registers via the serial port of the TR7001. The microcontroller assumes full control of the CFG pin, CFGCLK pin, and CFGDAT pin in 3G mode to continuously update the internal registers. The DR7001 module is designed to demonstrate the performance of the TR7001 ASH Transceiver at 4.8kbps, although other data rates are possible with changes in on-board component values. See pin descriptions and refer to the TR7001 datasheet. The DR7001 module may be mounted on a prototype assembly using standard 0.1" spacing, 10-pin headers spaced 0.9" apart. 2G Mode Operation The DR7001 may operate in 2G mode. See pin 15 description and Power-up Mode Select (J2) section for mode select details. In 2G mode, the CFGCLK pin (18) and CFGDAT pin (17) operate as CTRL0 and CTRL1, respectively, just as for second-generation devices. The CFGCLK and CFGDAT pins are a high impedance input allowing external control for 2G configuration. The logic levels on CFGCLK (CTRL0) and CFGDAT (CTRL1) control the default 2G operation as shown below: CFGCLK (CNTRL0) 0 1 0 1 Current Consumption Monitor (J5) The current consumption of the TR7001 device may be monitored by removing J5 and connecting an ammeter across the terminals. When J5 is removed it isolates the TR7001 from VCC powering the on-board processor to give a true reading of the current consumption of only the TR7001 without the additional current usage of the processor. J5 must be installed to power the TR7001 if not using the header for current measurement. Power-up Mode Select (J2) J2 is used to select the operating mode of the TR7001 device only at power-up. The state of J2 when VCC is applied will determine whether the board operates in 2G mode or 3G mode. Pin 2 (center pin) of J2 is connected to Pin 19 (CFG) of the TR7001 device and is grounded for 2G mode and functions as the chip select line for the serial interface in 3G mode. Installing the jumper will either connect the CFG pin of the TR7001 to GND or directly to the processor for control in 3G mode. See the table below for powerup jumper settings. Setting J2(1-2) J2(2-3) Power-up Mode 2G 3G Pin 19 Connected to GND Connected to Processor After power-up if 3G mode is selected, pin 15 (3G Sel) must be pulled `High' to initiate the processor to operate in 3G mode. Failure to pull pin 15 `High' after power-up will cause the processor to remain inactive. CFGDAT (CNTRL1) 0 0 1 1 MODE SLEEP TX OOK TX ASK RX J4 J5 Header J2 Header Programming Header (J4) The programming header allows for custom firmware development for the Silicon Labs C8051F330 if desired. Contact RFM for more information about custom firmware development. www.RFM.com E-mail: info@rfm.com (c)2008 by RF Monolithics, Inc. Page 5 of 7 DR7001 - 4/8/08 4.8kbps Application Circuit 19.2kbps Application Circuit Sample Set Ups TX/RX (pin 8) 0 0 0 0 1 0 Command Receive OOK 4.8kbps Receive ASK 4.8kbps Receive ASK 19.2kbps (add ext 243K Resistor on pin 7) Receive ASK 4.8kbps w/ Start Vector and Clock Recovery TX OOK Sleep ASK/OOK (pin 9) 0 1 1 1 0 0 SLEEP (pin 10) 0 0 0 0 0 1 SVEN (pin 11) 0 0 0 1* 0 0 DSSS (pin 12) 0 0 0 0 0 0 ISS (pin 13) 0 0 0 0 0 0 4.8/19.2 (pin 14) 1 1 0 1 0 0 3G SEL (pin 15) 1 1 1 1 1 0 1='Pull High' 0='Pull Low' *After data is received, reset this pin to `0' then set back to `1' to re-enable Start Vector recognition. www.RFM.com E-mail: info@rfm.com (c)2008 by RF Monolithics, Inc. Page 6 of 7 DR7001 - 4/8/08 DR7001 Bill of Material (4.8kbps) Item 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Reference C2 C4 C5 C6 C7 C8 C9 C3 L1 L2 L3 R1 R3 R4 R5 R6 R8 R7 U2 U1 Description Capacitor SMT 0603 Capacitor SMT 0603 Capacitor SMT 0603 Capacitor SMT 0603 Capacitor SMT 0603 Capacitor SMT 0603 Capacitor SMT 0603 Capacitor Tantalum EIA-B Fair-rite Bead 0603 Inductor Chip 0603 Inductor Chip 0603 Resistor Chip 0603 Resistor Chip 0603 Resistor Chip 0603 Resistor Chip 0603 Resistor Chip 0603 Resistor Chip 0603 Resistor Chip 0603 C8051F330 SILICON LABS Microcontroller IC, TR7000 RFIO Value 100pF .01uF .022uF 100pF 0.1uF 0.1uF 0.1uF 4.7uF 2506033017YO 56nH 220nH 20K 100K 470K 9.1K 1.0K 1.0K 10K Qty 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 3 4 5 6 7 8 9 10 Note: Specifications subject to change without notice. 20 19 18 17 16 15 14 13 12 11 www.RFM.com E-mail: info@rfm.com (c)2008 by RF Monolithics, Inc. Page 7 of 7 DR7001 - 4/8/08 |
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