Application note Using the SPIRIT1 transceiver under ARIB STD-T93 in the 315 MHz band Introduction By Placido De Vita The SPIRIT1 is a very low power RF transceiver, intended for RF wireless applications in the sub-1 GHz band. It is designed to operate both in the license-free ISM and SRD frequency bands at 169, 315, 433, 868, 915 and 920 MHz. The ARIB (Japanese association of radio industries and businesses) was established in response to several trends such as the growing internationalization of telecommunications, the convergence of telecommunications and broadcasting, and the need for promotion of radio related industries. The scope of the ARIB organization is to define the basic technical requirements for standard specifications of radio equipment. This application note outlines the expected performance when using the SPIRIT1 under ARIB STD-T93 [2] in the 315 MHz band. For details on the regulatory limits in the 315 MHz frequency band, please refer to the ARIB STD-T93 regulations [2]. These can be downloaded from www.arib.or.jp/english/index.html August 2012 Doc ID 023517 Rev 1 1/13 www.st.com
Contents AN4148 Contents 1 An overview of ARIB STD-T93 regulation........................ 3 2 Application circuit........................................... 5 3 Transmitter parameter....................................... 8 3.1 Permissible values for spurious emission intensity.................. 8 4 Receiver parameter......................................... 10 4.1 Conducted spurious component at receiver....................... 10 5 Reference................................................. 11 6 Revision history........................................... 12 2/13 Doc ID 023517 Rev 1
An overview of ARIB STD-T93 regulation 1 An overview of ARIB STD-T93 regulation The ARIB STD-T93 standard provides for telemetry radio equipment designed to automatically indicate and/or record the results obtained by measuring instruments located remotely; telecontrol radio equipment for transmission of signals to activate, change or deactivate the functions of devices located remotely by means of radio waves; data transmission radio equipment intended for the transmission of information to be processed primarily by machines, or of previously processed information that uses the frequency of 315 MHz. Expected application is air pressure monitoring equipment for tire and keyless entry systems for automotive. Audio and sound data is eliminated from this regulation. The operating frequency band is defined as above 312 MHz to below 315.25 MHz. The antenna power for frequencies above 312 MHz and below 315.25 MHz must be below 25 µw (- 16 dbm) EIRP (equivalent isotropically radiated power). Also, antenna power (EIRP) shall be below 205 uw (- 6.9 dbm) when the center of the frequency band added deviation of frequency to occupied frequency band is between 312 MHz and 315.05 MHz. There are no specific requirements for the modulation method, modulation rate, frequency deviation, coding type, and adjacent channel leakage power. The permissible value for an occupied bandwidth (the bandwidth such that the mean power radiated below its lower frequency limit and above its upper frequency limit are each equal to 0.5% of the total mean power radiated by a given emission) shall be 1 MHz. Spurious emission refers to the emission on a frequency or frequencies which are outside the permitted bandwidth and the level of which may be reduced without affecting the corresponding transmission of information, including a high harmonic emission, a low harmonic emission, a parasitic emission and an intermodulation product, but excluding an out-of-band emission. Out-of-band emission refers to the emission which results from the modulation process on a frequency or frequencies outside the permitted bandwidth. Unwanted emission refers to the emission consisting of the spurious emission and the outof-band emission. Permissible value of the unwanted emission intensity refers to the permissible value defined according to the mean power of unwanted emissions of each modulated frequency supplied to the feeder. Permissible value of the unwanted emission intensity is shown in Table 1. For the receiver part, a conducted spurious component is defined. Permissible value of the receiver conducting spurious components is defined in Table 2. Doc ID 023517 Rev 1 3/13
An overview of ARIB STD-T93 regulation AN4148 Table 1. Frequency band [GHz] value of the permissible value of the unwanted emission intensity Maximum permissible value of the unwanted emission intensity [nw] e.i.r.p. [dbm] e.i.r.p. Below 1 250-36 100 khz Above 1 1000-30 1 MHz Reference bandwidth Table 2. Frequency band [GHz] value of the conducted spurious component at receiver Maximum permissible value of the unwanted emission intensity [nw] EIRP [dbm] EIRP Below 1 4-54 100 khz Above 1 4-54 1 MHz Reference bandwidth 4/13 Doc ID 023517 Rev 1
Application circuit 2 Application circuit Figure 1 shows an image of the SPIRIT1 application board. The application is made up of 2 boards: a daughterboard and a motherboard. The daughterboard contains the SPIRIT1 with the circuits necessary for it to work. For correctly functionality, the daughterboard must be plugged into the motherboard (see Figure 2) by two header 5x2 connectors (J6 and J7). The motherboard is provided with an STM32L152VBT6 microcontroller to correctly program the transceiver. The microcontroller is programmed with firmware developed for the SPIRIT1 application. A graphical user interface (GUI) is developed to correctly program the SPIRIT1. The daughterboard is provided with a 52 MHz XTAL to provide the correct oscillator to the SPIRIT1. The SPIRIT1 has an internal SMPS that drastically reduces power consumption, making it the best-in-class for application on this bandwidth. The SMPS is fed from the battery (1.8 V to 3.6 V) and provides the device with a programmable voltage (1.4 V typical). An SMA connector is present to connect the board to an antenna or to instrumentation to verify the correct functionality and verify the ETSI standard request. A few of passive devices (inductors and capacitors) are used for matching/filtering in the power amplifier (PA) and balun network for the receiver. To reduce application costs, the SPIRIT1 is designed to work without an external antenna switch. The daughterboard is designed to show the SPIRIT1 functionality in this condition. Clearly, an application with antenna switch can be realized, but this is not described in this document. Figure 1. SPIRIT1 application daughterboard AM13146v1 Doc ID 023517 Rev 1 5/13
Application circuit AN4148 Figure 2. SPIRIT1 application daughterboard plugged into the motherboard AM13147v1 6/13 Doc ID 023517 Rev 1
Application circuit Figure 3. Daughterboard schematic C22 C_330p_0402_C0G U1 C12 C_100n_0402_X7R 15 SDn R12 R_TBD_0402 L1 L2 C8 L3 L_TBD_0402 L_TBD_0402 L_TBD_0402 C15 C1 C2 C3 C6 C5 L4 L_TBD_0402 10 8 6 4 2 J6 HEADER 5X2 L8 L_TBD_0402 C13 C_TBD_0402_X7R L6 L_TBD_0402 C20 C_1U_0603_X7R_K_6V3 C14 C4 9 7 5 3 1 VBAT1 16 VREG 17 GPIO_3 18 GPIO_2 19 GPIO_1 20 GPIO_0 C0 C_100n_0402_X7R R13 R_TBD_0402 1 C11 C_1U_0603_X7R_K_6V3 C21 C_100p_0402_C0G L7 L_10U_0805 SMPS1 14 SDO 2 L0 L_TBD_0402_50M SMPS2 13 L9 SDI L_TBD_0402 3 L5 L_TBD_0402 J7 HEADER 5X2 C7 12 TX RF_IN/OUT J1 SDn DUMMY3 GPIO3 GPIO2 GPIO1 GPIO0 SCLK 4 DUMMY3 VCC_RF 3V3 3V3 SPIRIT_DUMMY2 SPIRIT_DUMMY1 10 8 6 4 2 5 REXT 11 CSn 9 7 5 3 1 GND 21 RXN 10 RXP VBAT2 XIN XOUT 9 8 7 6 SPIRIT1_2 SDO SDI SCLK CSn Y1 NX3225GA-xxMHz (XTAL) XTAL C10 C_10P_0402_C0G_J_50 C9 C_12P_0402_C0G_J_50 C19 B3=868MHz R_0R0_0402 R6 R9 B0=169MHz R_0R0_0402 Mount resistor relative to used band R10 B1=315MHz R7 B3=915MHz R_0R0_0402 R_0R0_0402 R11 B2=433MHz R8 B3=920MHz R_0R0_0402 R_0R0_0402 AM13166v1 Doc ID 023517 Rev 1 7/13
Transmitter parameter AN4148 3 Transmitter parameter All of the measurements reported here are measured using the following parameters: Tc = 25 C, Vdd = 3.0 V, f = 313.5 MHz (middle frequency of the useful bandwidth), unless otherwise specified. The maximum output power of the SPIRIT1 in this band is 10 dbm, so all the measurements are performed at the levels required by the standard, that is - 16 dbm. The permissible value for an occupied bandwidth defined in the standard is 1 MHz. The occupied bandwidth from the SPIRIT1 when the maximum permitted data rate and deviation are used is lower than 1 MHz, so no measurements are performed to verify this parameter. There are no specific requirements in the standard about setting of detector or video bandwidth (VBW) of the spectrum analyzer used for the measurement. The detector will be set to peak, the video bandwidth will be set equal to the resolution bandwidth, and the display will be set to peak hold. 3.1 Permissible values for spurious emission intensity Spurious emission refers to the emission on a frequency or frequencies which are outside the permitted bandwidth and the level of which may be reduced without affecting the corresponding transmission of information, including a high harmonic emission, a low harmonic emission, a parasitic emission and an intermodulation product, but excluding an out-of-band emission. Out-of-band emission refers to the emission which results from the modulation process on a frequency or frequencies outside the permitted bandwidth. Unwanted emission refers to the emission consisting of the spurious emissions and the out-of-band emissions. Permissible value of the unwanted emission intensity refers to the permissible value defined according to the mean power of unwanted emissions of each modulated frequency supplied to the feeder. Permissible values of the unwanted emission intensity are shown in Table 1. The measurements performed are printed in Figure 4 and 5. From these images it is possible to see that all of the requirements are met. 8/13 Doc ID 023517 Rev 1
Transmitter parameter Figure 4. TX spurious emission below 1 GHz 0-10 Output power ARIB mask -20 Output power [dbm] -30-40 -50-60 -70 0.0E+00 1.0E+08 2.0E+08 3.0E+08 4.0E+08 5.0E+08 6.0E+08 7.0E+08 8.0E+08 9.0E+08 1.0E+09 Frequency [Hz] AM13276v1 Figure 5. TX spurious emission above 1 GHz 0-10 Output power ARIB mask -20 Output power [dbm] -30-40 -50-60 -70 1.0E+09 1.5E+09 2.0E+09 2.5E+09 3.0E+09 3.5E+09 4.0E+09 4.5E+09 5.0E+09 Frequency [Hz] AM13277v1 Doc ID 023517 Rev 1 9/13
Receiver parameter AN4148 4 Receiver parameter ARIB compliance in ARIB STD-T93 [2] in the 312 to 315.25 MHz band only pertains to emissions and harmonics. There are no receiver sensitivity, selectivity or blocking measurements to comply with ARIB STD-T93 standard [2]. 4.1 Conducted spurious component at receiver Spurious radiation from the receiver are components at any frequency, radiated by the equipment. The spurious emission strength at the antenna input must be less than the values in Table 2. The measurement results are shown in Figure 6 and 7. All standard requirements are met from the SPIRIT1 in receiver mode. Figure 6. TX spurious emission below 1 GHz -40-45 Output power ARIB mask -50 Output power [dbm] -55-60 -65-70 0.0E+00 1.0E+08 2.0E+08 3.0E+08 4.0E+08 5.0E+08 6.0E+08 7.0E+08 8.0E+08 9.0E+08 1.0E+09 Frequency [Hz] AM13278v1 Figure 7. TX spurious emission above 1 GHz -40-45 Output power ARIB mask -50 Output power [dbm] -55-60 -65-70 1.0E+09 1.5E+09 2.0E+09 2.5E+09 3.0E+09 3.5E+09 4.0E+09 4.5E+09 5.0E+09 Frequency [Hz] AM13279v1 10/13 Doc ID 023517 Rev 1
Reference 5 Reference 1. SPIRIT1 datasheet 2. ARIB STD-T93: 315 MHz band telemeter, telecontrol and data transmission radio equipment for specified low-power radio station Doc ID 023517 Rev 1 11/13
Revision history AN4148 6 Revision history Table 3. Document revision history Date Revision Changes 06-Aug-2012 1 Initial release. 12/13 Doc ID 023517 Rev 1
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