TESSERA TECHNOLOGY 0002 WIRELESS UNIT User Manual USERS MANUAL

TESSERA TECHNOLOGY INC. WIRELESS UNIT USERS MANUAL

USERS MANUAL

MB-RF1146 User’s Manual © TESSERA TECHNOLOGY INC. Rev 1 2011/05/06 - 1 -
[NOTES] The information in this document is subject to change without notice. No part of this document may be copied or reproduced in any form or by any means without the prior written consent of TESSERA TECHNOLOGY INC. TESSERA TECHNOLOGY INC. assumes no liability for infringement of patents or copyrights of third parties by or arising from use of a product described herein. This product is designed and manufactured with intention for use in evaluation and prototyping by engineers with knowledge of security, safety and reliability. TESSERA TECHNOLOGY INC. would like to inform, that the standard quality assurance procedure(s) have not been fully applied to this product and its documentation and that TESSERA TECHNOLOGY INC. cannot assure the full and error free function and/or the standard quality level. [CAUTION] This equipment should be handled like a CMOS semiconductor device. The user must take all precautions to avoid build-up of static electricity while working with this equipment. All test and measurement tool including the workbench must be grounded. The user/operator must be grounded using the wrist strap. The connectors and/or device pins should not be touched with bare hands. - 2 -
[FCC WARNING & NOTICE] ●Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. Class B: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: ● Reorient or relocate the receiving antenna. ● Increase the separation between the equipment and receiver. ● Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. ● Consult the dealer or an experienced radio/TV technician for help. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: ●this device may not cause harmful interference, and ●this device must accept any interference received, including interference that may cause undesired operation. ●The host device shall also comply with the certification labeling requirements of each of the modules it contains. ●A reference to the enclosed module displaying its FCC ID certification number. Recommended wording: Contains FCC ID: X8U0002 - 3 -
Contents 1. Hardware Specifications ................................................................................................5 2. Layout of hardware functions......................................................................................... 5 3. Hardware functions........................................................................................................6 3.1. J1 (Connector) ...................................................................................................... 6 3.2. CN1,CN2 (Connector)...........................................................................................6 3.3. EVDD (Solder short pad) ......................................................................................7 3.4. RF (Solder short pad)............................................................................................ 7 4. RF test procedure..........................................................................................................8 5. Circuit diagram ............................................................................................................ 17 - 4 -
1. Hardware Specifications Supply voltage DC3.0V Microcontroller uPD78F1146AGA-HAB-AX RF IC UZ2400.D Clock Main clock : 16MHz (UZ2400.D CLK_OUT) Sub clock : 32.768KHz Dimension 32x25 (HxW mm) 2. Layout of hardware functions CN2 CN1 J1RF EVDD - 5 -
3. Hardware functions 3.1. J1 (Connector) Interface connector for universal use. (JST SM06B-SRSS-TB(LF)(SN)) Pin No. Signal name 1 EVDD 2 GND 3 P10/SCK00 4 P11/SI00/RxD0 5 P12/SO00/TxD0 6 P141/PCLBUZ1/INTP7 3.2. CN1,CN2 (Connector) Interface connector for universal use. (FCI 20021111-00020T4LF) CN1 connection Pin No. Signal name 1 P120/INTP0/EXLVI2 P42/TI04/TO04 3 P41/TOOL1 4 P40/TOOL0 5 RESET 6 FLMD0 7 GND 8 GND 9 VDD 10 EVDD 11 P60/SCL0 12 P61/SDA0 13 P77/KR7/INTP11 14 P76/KR6/INTP10 15 P75/KR5/INTP9 16 P74/KR4/INTP8 17 P06/TI06/TO06 18 P05/TI05/TO05 19 RF Power 20 P50/INTP1 CN2 connection Pin No. Signal name 1 P140/PCLBUZ0/INTP62 P141/PCLBUZ1/INTP73 P00/TI00 4 P01/TO00 - 6 -
5 P20/ANI0 6 P21/ANI1 7 P22/ANI2 8 P23/ANI3 9 P24/ANI4 10 P25/ANI5 11 P26/ANI6 12 P27/ANI7 13 AVSS 14 AVREF 15 P10/SCK00 16 P11/SI00/RxD0 17 P12/SO00/TxD0 18 P13/TxD3 19 P14/RxD3 20 P17/TI02/TO02 Power and GND were respectively connected internally at default setting. 3.3. EVDD (Solder short pad) This Solder short pad connects VDD and EVDD at original setting. You can separate VDD and EVDD with cutting the dent part. 3.4. RF (Solder short pad) This Solder short pad connects VDD and RF power at original setting. You can separate VDD and RF power with cutting the dent part. - 7 -
4. RF test procedure Procedure for one to one transmit/receive test Assumption here in this section is, you have two boards, in one of which the execution code for the “RF_TEST” was programmed by the debugger. You also prepare two PCs or one PC with more than one usb interface. We will use the board you have program with the short address 0x0001 as a transmitter. We now learn how to prepare an executable program for receiver side, which may be assigned a short address of 0x0002. 4.1. Settings for a receiver the board setting is configured as follows as a receiver. Bit1 Bit2 Bit3 Bit4 ALL OFF Bit5 ON Bit6 ON Bit7 OFF SW4 Bit8 OFF SW6 「K0R-K0USB」 SW5 3.0V JP3 1-2 Short(USB) JP5 Any JP2 1-2 Short (Regulator)JP1 Short JP4 Short Transmitter Short address : 0001 Receiver Short address : 0002 Connect the board with a PC by a USB cable, then you will find the Power LED lit on the board. - 8 -
Then, we need a hyperterminal on the PC. On MS-Windows in your PC, please select [All Programs] -> [Accessory] -> [Communication] -> [HyperTerminal] You may assign your favorite name on a connection. Then, click OK. You need to learn the COM port number you connected the USB cable. If you don’t know the com port number, please find it at [Control Panel]  [System]  [Hardware]  [Device Manager]  [Port (COM and LPT)]. - 9 -
Bits per second 115200 Data bits 8 Parity None Stop bits 1 Flow control None (Property -> Setting -> ASCII) Local Echo OFF No Line Feed Please set the COM port at 115200 bps, 8 data bits, no parity, 1 stop bit, and no flow control. Then, please click “OK”. Then, please reset the receiver board by pressing the SW7. Now you will find the following opening menu in the window. - 10 -
Please select “2” from the MENU to start the board as a receiver. Command? >2 (PER test/reciever) [My Profile] ------------------------------------- MAC : 22:95:00:02:00:00:00:47 Short : 0002 PanID : 2514 ------------------------------------- [Set channel to 11 (Cmd)] If you see the display as shown above, the receiver set-up has been completed. - 11 -
4.2. Settings for a transmitter Please configure the board of a transmitter as follows, Bit1 Bit2 Bit3 Bit4 ALL OFF Bit5 ON Bit6 ON Bit7 OFF SW4 Bit8 OFF SW6 「K0R-K0USB」 SW5 3.0V JP3 1-2 short(USB) JP5 Any JP2 1-2 short(Regulator)JP1 Short JP4 Short Please connect the transmitter board to a PC. Please confirm the LED lit on the board. Please start-up a hyperterminal for a transmitter. Please reset the transmitter board by pressing the SW7. Now you will find the following opening menu in the window. - 12 -
Please select the command “1” to start the Packet Error Rate test. Command? >1 (PER test/sender) [My Profile] ------------------------------------- MAC : 22:95:00:01:00:00:00:47 Short : 0001 PanID : 2514 ------------------------------------- Send to (Short addr) ? : If you see “Send to (Short addr) ? :”, please input the receiver address of 0002. Then, you will be asked how many packets you wish to consume in the PER test. You may input “1000”. Then, you will be asked the interval of packets in msec. You may input 3 msec. Then, the PER test will be executed. You will see, Sent: The number of packets sent. Received: The number of the received packets. PER: The calculated PER in %. RSSI: The maximum and minimum RSSI values in the PER test [Note] PER= Packet Error Rate RSSI= Received Signal Strength Indication ------------------------------------- Send to (Short addr) ? : 2 Send count (dec) ? : 1000 Interval (dec/msec) ? : 3 [Set channel to 11 (Cmd)] Prepare to send..OK [Set channel to 11 (Current)] Request to result..OK [Results] ------------------------------------- From : 0001 To : 0002 ------------------------------------- Sent : 1000 Recieved : 1000 PER : 0.0000% RSSI : max FF / min D0 ------------------------------------- Press any key to the menu - 13 -
4.3. Channel setting In the previous example, you may have also found the RF channel used in this test is the Channel 11. The channel is specified by the IEEE 802.15.4 specification. The channel 11 is assigned at 2405 MHz. You can change the channel in the PER test in 5MHz step to the maximum channel of 26th at 2480 MHz. To do it, please press “A” in the command prompt. Then, please choose the channel by [+], [-], [A], [B], or [C]. In the example below, the channel 23th, 2465 MHz, was selected. - 14 -
To execute the PER test at the channel 23, press [Enter] in your keyboard, then, choose “1” to initiate the PER test mode. Then, you may input 1000 packet in 5 msec interval to see the following example. Please confirm the channel used is 23th in the display. Please note the receiver will learn which channel is to be used for the test automatically. [My Profile] ------------------------------------- MAC : 22:95:78:01:00:00:00:47 Short : 0001 PanID : 2514 ------------------------------------- Send to (Short addr) ? : 02 Send count (dec) ? : 1000 Interval (dec/msec) ? : 5 [Set channel to 11 (Cmd)] Prepare to send..OK [Set channel to 23 (Current)] Send.. 0 Request to result..OK [Results] ------------------------------------- From : 0001 To : 0002 ------------------------------------- Sent : 1000 Recieved : 1000 PER : 0.0000% RSSI : max FF / min FF ------------------------------------- - 15 -
2 PER test / receiver The Menu 2 sets the board to the receiver in the PER test. If you have two PCs, you can connect two boards to each of two PCs, then, you will apply this mode to one of them. 3 Continuous TX / Pseudo Noise The Menu 3 initiates the modulated RF transmission. The data carried are pseudo random numbers. You can define the channel using the menu A. 4 Continuous TX / Raw carrier The Menu 4 initiates the carrier transmission. The output power is not 0 dB as a reset default. You can define the channel using the menu 9. 5 RX Mode The Menu 5 initiates the receiver mode. 6 IDLE MODE The Menu 6 sets the UZ2400 into the IDLE mode. 8 Standby MODE The Menu 8 sets the UZ2400 into the Standby mode. 9 Deep Sleep mode The Menu 9 sets the UZ2400 into the Deep Sleep mode. 0 Power down mode The Menu 0 sets the UZ2400 into the Power down mode. A Set RF channel The Menu A allows you to set the RF channel. - 16 -
- 17 - P74P06 P05P501.27mm Pich Pin HeaderT31CN120021111-00020T4LF1 23 45 67 891011131517191214161820T21U1uPD78F1146AGA-HAB-AXP120/INTP0/EXLVI1P432P42/TI04/TO043P41/TOOL14P40/TOOL05RESET6P124/XT27P123/XT18FLMD09P122/X2/EXC LK10P121/X111REGC12VSS13EVSS14VDD15EVDD16P60/SCL017P61/SDA018P6219P6320P31/TI03/ TO03/I NTP421P77/KR7/I NTP1122P76/KR6/I NTP1023P75/KR5/I NTP924P74/KR4/I NTP825P73/KR326P72/KR227P71/KR128P70/KR029P06/TI06/ TO0630P05/TI05/ TO0531P30/INT P3/RTC1HZ32P50/INTP1 33P51/INTP2 34P52 35P53 36P54 37P55 38P17/TI02/TO02 39P16/TI01/TO01/IN TP5 40P15/RTCDIV/RTCCL 41P14/RXD3 42P13/TXD3 43P12/SO00/TXD0 44P11/SI00/RXD0 45P10/SCK00 46AVREF 47AVSS 48P27/ANI7 49P26/ANI6 50P25/ANI5 51P24/ANI4 52P23/ANI3 53P22/ANI2 54P21/ANI1 55P20/ANI0 56P130 57P04/SCK10/SCL10 58P03/SI10/R XD1/SD A10 59P02/SO10/TXD1 60P01/TO00 61P00/TI00 62P141/PCLBUZ1/INTP7 63P140/PCLBUZ0/INTP6 64Tit l eSize Docum ent Number RevDate: Sheet ofTS-TCS00874-2 1.0MB-RF1146A312Friday , March 18, 201178K0R/KE3CLK_OUT2T51R310KRF1SSVDDRFRFAVREFT41SEN2XT2XT1FLMD0P41RESETVDDSI2C4 0.47uF/6. 3VBP40SO2C60.1uFVDDSCLK2INT2R210KVDDWAKE 2AVREFRESETn 2P10P11P12P141P141P10P12P11CN220021111-00020T4LF1 23 45 67 891011131517191214161820P14AVSSP24P26P10P12P17P140P00P20P22 P23P25P27P11P13AVREFP141P01P21C118pFC218pFY1FC-135(32.768KHz)R1100XT2XT1AVSSAVSSR60EVDD1SSR70T11VDDP120P42P60P61J1SM06B-SRSS-TB(LF )(SN) 1 23 45 6P74R40(Shield)C30.1uFAVREFEVDDEVDDC50.1uFP75P76P06P77R51.5K1 2P05UZ,UD判別ポートプルアップを有効にして、LowならばUDシリーズP50P17EVDDP13P14P20XTAL_32_P 2P21P22P23P24P25P26P00P27P01P140AVSSP120 P42VDD EVDDP41 P40RESET FLMD0EVDDP60 P61P771mmPich SMT ConnectorP76R1810KEVDDP755. Circuit diagram
- 18 - UZ_CLK_OUTRFC320.1uFUZ _R ESETnUZ_WAKEVDDC330.1uFUZ_SENUZ_SIUZ_SCLKUZ_SOUZ_INTUZ_XTAL_32_PNot mountNot mountNot mountNot mountNot mountR8100KEVDDH=A->BL=B->AU4SN74LVC2T45DCUVCCA 1A1 2A2 3B26DIR5VCC B8GND 4B17Tit leSize Document Number RevDate: Sheet ofTS-TCS00874-2 1.0MB- R F 11 46A322Friday , March 18, 2011H=A->BL=B->AU6SN74LVC1T45DRLVCCA 1GND 2A3B4DIR5VCCB6C2710uF/10VL44.7nHC280.01uFC264.7uF/ 10VC2347pFC7 10pFC1247pFC170.01uFC220.1uFC80.01uFL58.2uHC9 10pFC1047pFC1539pFC130.01uFRFC300.1uFEVDDUZ2400 (V4.1)U2UZ2400V4.1VDD_RF11GPIO211 LOOP_C 40RF_P2RF_N3VDD_RF24VDD _GR5GND _GR6GPIO07GPIO18VDD _2V29VDD _3V10GPIO312RESETn13C_Comp14WAKE15INT16SO17SI18SCLK19SEN20VDD_VCO 39NC 38VDD _CP 37GND _PLL 36VDD _PLL 35XTAL_P 34XTAL_N 33VDD _A 32VDD _BG 31VDD _D 21XTAL32_P 27GND _D 22XTA L 3 2 _ N 28CLK_OUT 26SCAN_M 25RX_QP 30RF_IP 29SPI/I2C 23SCAN _EN 24PAD41C310.1uFC2410pFC111uFY2NX3225SA-32.000M-STD-CSR-31 34 2EVDDRFC1447pFC1647pFF1 LDB212G4020C-001UNB1GND2BAL 4GND 5NC 6BAL3C251uFVDD_RFVDD_RFVDD_RFVDD_RF RFVDD_RFRF VDD_RFVDD_RFRFVDD_RFVDD_RFR9 xxxWAKE1RESETn1UZ_WAKEUZ_RESETnXTAL_32_P1UZ _XTAL_32_PR10 xxxR11 xxxR14 xxxR15 xxxR16 xxxUZ_SENUZ_SCLKUZ_SISEN1SCLK1SI1U3AHD74LV2G34AUSE1 784U3BHD74LV2G34AUSE3 584U3CHD74LV2G34AUSE6 284C21xxxFC200ANT1Antenna1UZ_SOL21.0nHL11.0nHSO 1TP1PAD1INT 1CN3MS-156CCAFG1 FG20ΩL34.7nHC182.7pFC1900ΩUZ_INTUZ_SOINT 1SO 1R12 xxxR13 xxxCLK_OUT 1UZ _C LK_OUT R17 xxxRFRFRFRESETn1WAKE1XTAL_32_P1UZ_WAKEUZ _R ESETnUZ_XTAL_32_PU5CHD74LV2G34AUSE6 284U5BHD74LV2G34AUSE3 584U5AHD74LV2G34AUSE1 784RFRFRFUZ_SCLKUZ_SIUZ_SENSI1SEN1SCLK1CLK_OUT 1RFC290.1uFRFC340.1uFUZ_INTUZ_CLK_OUTRF VDDC2012C160832/16/8/4/2/1 MHz Clock output

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