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TSA-IC500 User's Manual Date published: December 2012 Rev. 1.0 © TESSERA TECHNOLOGY INC. 2012 Printed in Japan TS-TUM01606 TSA-IC500 USER'S MANUAL CAUTION: ▪ 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 prior written consent of Tessera Technology Inc. ▪ Tessera Technology Inc. assumes no responsibility for inaccuracies or misprints of this document. ▪ Tessera Technology Inc. does not assume any liability for infringement of patents, copyrights, or other intellectual property rights of third parties by or arising from the use of Tessera Technology Inc. products described in this document. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Tessera Technology Inc. or others. ▪ Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples. You are fully responsible for the incorporation of these circuits, software, and information in the design of your equipment. Tessera Technology Inc. assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits, software, or information. ▪ This product 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 device pins should not be touched with bare hands. TESSERA TECHNOLOGY INC. 2/63 TSA-IC500 USER'S MANUAL TABLE OF CONTENTS 1. OVERVIEW.......................................................................................................................................6 1.1 Document Overview...................................................................................................................6 1.2 Terms in This Document............................................................................................................6 1.3 Board Features ..........................................................................................................................6 1.4 Product Overview.......................................................................................................................7 2. HARDWARE...................................................................................................................................10 2.1 Hardware Specifications ..........................................................................................................10 2.2 Block Diagram..........................................................................................................................11 2.3 Power Supply...........................................................................................................................12 2.3.1 Power Options ...........................................................................................................12 2.3.2 Supply Power ............................................................................................................13 2.4 Smart Analog IC500.................................................................................................................14 2.5 Evaluation Circuit .....................................................................................................................16 2.5.1 Switch........................................................................................................................16 2.5.2 Clock Circuit ..............................................................................................................17 2.5.3 Consumption Current Measurement Terminal...........................................................18 2.5.4 Smart Analog IC500 Analog Peripheral Circuit..........................................................19 2.5.5 Connector ..................................................................................................................25 2.5.5.1 External Power Supply Connector..................................................................25 2.5.5.2 USB I/F Connector .........................................................................................26 2.5.5.3 E1 Emulator I/F Connector .............................................................................27 2.5.5.4 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector..............28 2.5.5.5 Extended Sensor I/F Connector .....................................................................30 2.5.5.6 Extended MCU I/F Connector.........................................................................33 3. DEMONSTRATION OF PHOTOTRANSISTOR MOUNTED ON BOARD ......................................35 3.1 Tutorial for SA-Designer and CubeSuite+................................................................................35 3.1.1 Design Analog Frontend Circuit Using SA-Designer .................................................36 3.1.1.1 Start SA-Designer...........................................................................................36 3.1.1.2 Design Evaluation Circuit for Mounted Phototransistor ..................................37 3.1.2 Create Project Using CubeSuite+..............................................................................40 3.1.2.1 Download Sample Program (main.c)..............................................................40 3.1.2.2 Start CubeSuite+ ............................................................................................40 3.1.2.3 Create Project in CubeSuite+ .........................................................................40 3.1.3 Experience Using TSA-IC500....................................................................................46 3.1.3.1 Prepare Before Demonstration .......................................................................46 3.1.3.2 Demonstrate on Board ...................................................................................50 4. HARDWARE MATERIALS .............................................................................................................55 4.1 Circuit Diagrams ......................................................................................................................55 TESSERA TECHNOLOGY INC. 3/63 TSA-IC500 USER'S MANUAL 4.2 Parts List..................................................................................................................................59 4.3 Board Size ...............................................................................................................................61 4.4 Parts Layout.............................................................................................................................62 TESSERA TECHNOLOGY INC. 4/63 TSA-IC500 USER'S MANUAL FIGURES AND TABLES Figure 1.1 Board (Front Side)...................................................................................................................7 Figure 1.2 Board (Back Side) ...................................................................................................................8 Figure 1.3 Product Usage Sample Image 1..............................................................................................9 Figure 1.4 Product Usage Sample Image 2..............................................................................................9 Figure 2.1 TSA-IC500 Block Diagram ....................................................................................................11 Figure 2.2 JP1 Setting ............................................................................................................................12 Figure 2.3 LED Indicator (USB Power Supply).......................................................................................13 Figure 2.4 LED Indicator (External Power Supply) .................................................................................13 Figure 2.5 Switch Layout ........................................................................................................................16 Figure 2.6 Clock Circuit Layout ..............................................................................................................17 Figure 2.7 RL78/G1A Current Measurement Terminal ...........................................................................18 Figure 2.8 Smart Analog IC500 Current Measurement Terminal ...........................................................18 Figure 2.9 Amplifier Peripheral Circuit 1: AMP1 .....................................................................................19 Figure 2.10 Amplifier Peripheral Circuit 2: AMP2 ...................................................................................20 Figure 2.11 Amplifier Peripheral Circuit 3: AMP3 ...................................................................................21 Figure 2.12 Amplifier Peripheral Circuit 4 ...............................................................................................22 Figure 2.13 Example of Mounting Resistance for Voltage-dividing Circuit to Amplifier Peripheral Circuit 4 .............................................................................................................................................................23 Figure 2.14 Amplifier Peripheral Circuit 5 ...............................................................................................24 Figure 2.15 Amplifier Peripheral Circuit 6 ...............................................................................................24 Figure 2.16 External Power Supply Connector Layout ...........................................................................25 Figure 2.17 USB I/F Connector Layout ..................................................................................................26 Figure 2.18 E1 Emulator I/F Connector Layout ......................................................................................27 Figure 2.19 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector Circuit .......................28 Figure 2.20 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector Layout.......................29 Figure 2.21 Extended Sensor I/F Connector Layout ..............................................................................31 Figure 2.21 TSA-IC500 connecting the sensor extension board TSA-EXT BOARD ..............................31 Figure 2.22 Extended MCU I/F Connector Layout..................................................................................34 Figure 3.1 Phototransistor Position ........................................................................................................54 Figure 4.1 Board Size.............................................................................................................................61 Figure 4.2 Parts Layout (front side) ........................................................................................................62 Figure 4.3 Parts Layout (back side)........................................................................................................63 Table 1.1 List of Terms.............................................................................................................................6 Table 2.1 Hardware Specifications.........................................................................................................10 Table 2.2 Power Supply Settings ...........................................................................................................12 Table 2.3 Smart Analog IC500 Terminal List..........................................................................................14 Table 2.4 Switch Functions ....................................................................................................................16 Table 2.5 Connector Function List..........................................................................................................25 Table 2.6 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector......................................28 Table 2.7 Extended Sensor I/F Connector .............................................................................................30 Table 2.8 Extended MCU I/F Connector.................................................................................................33 TESSERA TECHNOLOGY INC. 5/63 TSA-IC500 USER'S MANUAL 1. Overview 1.1 Document Overview This document describes the hardware specifications, software structure, and USB driver installation for TSA-IC500. It describes an example of analog front end circuit design using mounted phototransistor at the end. 1.2 Terms in This Document This document uses following teams for explaining the hardware specifications and software. Table 1.1 List of Terms Term Smart Analog Smart Analog IC Smart Analog IC500 GUI “Smart Analog Easy Starter” E1 emulator CubeSuite+ SA-Designer 1.3 Description Product that analog circuits and features are reconfigurable by software designed for supporting multiple sensors and drivers. Product that is categorized in above term, but it is a package of an analog circuit. Smart Analog IC (reconfigurable circuit type) from Renesas Electronics. Smart Analog IC500 official part number: RAA730500 Development tool for RL78/G1E Stick On-chip debugging emulator from Renesas Electronics. This can be used as a flash programmer. (selling separately) Integrated development environment packaging all basic software tools for developing software on microcontrollers form Renesas Electronics. Development tool from Renesas Electronics. It generates circuit data as C source code from the analog frontend circuit designs of Smart Analog product. Board Features • • • • • Enable to evaluate Smart Analog IC500 (RAA730500) from Renesas Electronics. CPU RL78/G1A (R5F10ELEAFB) is mounted for controlling Smart Analog IC500. Option to use USB power or external power supply. Enable to get illuminance of phototransistor with using “Smart Analog Easy Starter”. Extensibility to add sensors. TESSERA TECHNOLOGY INC. 6/63 TSA-IC500 1.4 USER'S MANUAL Product Overview The product contains following items. • TSA-IC500 • Documentations This contains some specific notes and downloading URLs for “Smart Analog Easy Starter” and USB driver. Please read this before start using. • USB cable (Mini-B type) The pictures of the board are shown below. Figure 1.1 Board (Front Side) TESSERA TECHNOLOGY INC. 7/63 TSA-IC500 USER'S MANUAL Figure 1.2 Board (Back Side) TESSERA TECHNOLOGY INC. 8/63 TSA-IC500 USER'S MANUAL The product usage sample is shown below. It can design the analog part of RAA730500 by using “Smart Analog Easy Starter”. Also, you can design with using “CubeSuite+” and “SA-Designer” when you connect E1 emulator. For details about "CubeSuite+" and "SA-Designer" such as operations of them, please refer to Renesas Electronics Web site . GUI Smart Analog Easy Starter Circuit Design Waveform Observation USB Cable Figure 1.3 Product Usage Sample Image 1 IDE CubeSuite+ SA-Designer PC USB Cable TSA-IC500 E1 Emulator ( On-chip debugging emulator ) Figure 1.4 Product Usage Sample Image 2 TESSERA TECHNOLOGY INC. 9/63 TSA-IC500 USER'S MANUAL 2. Hardware 2.1 Hardware Specifications The specifications of the product are described in below table. Table 2.1 Hardware Specifications Smart Analog IC CPU Operation Frequency Interface Sensor Input Terminal Supply Voltage Indication Mounted Sensor Product Size TESSERA TECHNOLOGY INC. Specification Smart Analog IC500 (RAA730500) from Renesas Electronics Smart Analog IC, reconfigurable circuit RL78/G1A (R5F10ELEAFB) from Renesas Electronics (Flash ROM: 64KB, RAM: 4KB, Data Flash: 4KB) Main system clock: High-speed on-chip oscillator 1-32MHz Low-speed on-chip oscillator 15kHz Sub system clock: Oscillator 32.768kHz USB connector (Mini-B) External power connector E1 emulator connector RL78/G1A-Smart Analog IC500 control signal monitor connector Extended sensor I/F connector (50-pin) Extended MCU I/F connector (50-pin) 12 terminals: MPXIN10/11/20/21/30/31/40/41/50/51/60/61 It can input up to (A_GND – 0.1V)- (AVCC-1.5V) +5.0V (USB or external power supply) LED Phototransistor (SFH3710-3/4-Z from OSRAM) Board size: 90 x 55 mm (W x D) 10/63 TSA-IC500 2.2 USER'S MANUAL Block Diagram The block diagram of TSA-IC500 is shown below. SW2 Reset Switch Digital Power Area Digital Power Area CN3 Analog Power Area E1 Emulator I/F Connector Reset Circuit TH1 RL78/G1A-Smart Analog IC500 Control Signal Monitor Connector IC3 VBUS UVCC IC4 VCC Regulator XI/XO RL78/G1A TOOL0 RESET XTAL1 12MHz USB Controller ADP151-AUJZ-3.3 U_GND (Non Mount) IC1 MAX3420EETG+ IC2 AVDD Smart Analog IC500 LDO_OUT VDD AVCC AVDD VDD DVCC CN2 DVDD USB I/F CN D+/D- UX60SC-MB-5ST IC6 SCLK/MISO SCLK/MISO MOSI/SS MOSI/SS Control Control Port VDD Voltage Level Shifter DVCC I/F IC7 UVCC /RESET RESET IC Analog Port Port P04 ADM1816-10ARTZ MPXIN20 Q1 Power Branch VBUS JP1 Area SFH3710-3/4-Z TH3 External Power Area +5V DGND AVCC Power Option Power Connector Sensor Phototransistor X1/X2 XT1/XT2 Port DVCC DVCC GND UVCC VDD Extended MCU I/F Connector IC9 Analog Power 直結抵抗 U_GND DGND Extended Sensor I/F Connector XTAL3 Regulator ADP151-AUJZ-3.3 AGND VDD TH2 32.768KHz XTAL2 Analog Power Area No Mount Area Figure 2.1 TSA-IC500 Block Diagram This board mounts RL78/G1A for the control microcontroller of Smart Analog IC500. To minimize noises, it uses separate power plane. • External Power Area: Area that supplies DC power from external power. • Power Branch Area: Area that supplies power to digital power area and analog power area with selecting from USB power or external power. • Digital Power Area: Area that supplies power to USB controller, RL78/G1A and logic circuit. • Analog Power Area: Area that supplies power to analog power of Smart Analog IC500 and RL78/G1A. TESSERA TECHNOLOGY INC. 11/63 TSA-IC500 2.3 USER'S MANUAL Power Supply 2.3.1 Power Options This board has a function to be able to select a power source. Following table and figure describe how to set a power source. It is set to USB power supply as default. Table 2.2 Power Supply Settings Power Source External power supply (+5.0V) * USB power supply (+5.0V) JP1 Setting 5-3 short 6-4 short 1-3 short 2-4 short Connector Reference CN1 Connector Form 2.5mm-pitch dipole connector Connector Part Number B2P-SHF-1AA CN2 USB Mini-B connector UX60SC-MB-5ST 1 2 3 4 5 6 1 2 3 4 5 6 USB Power Supply External Power Supply Figure 2.2 JP1 Setting *Do not apply voltage other than +5.0V. The board is not guaranteed to work. TESSERA TECHNOLOGY INC. 12/63 TSA-IC500 2.3.2 USER'S MANUAL Supply Power LED will turn on when you supply power to the board. If it is USB power supply, both LED1 and LED2 will turn on. If it is external power supply, only LED2 will turn on. LED1 turn on LED2 turn on Figure 2.3 LED Indicator (USB Power Supply) LED1 turn off LED2 turn on Figure 2.4 LED Indicator (External Power Supply) TESSERA TECHNOLOGY INC. 13/63 TSA-IC500 2.4 USER'S MANUAL Smart Analog IC500 The connecting destinations of all Smart Analog IC500 terminals are described below. Table 2.3 Smart Analog IC500 Terminal List Smart Analog IC500 Pin No. 1 2 3 AVDD3 SC_IN CLK_SYNCH AVCC UMBL_SCIN SAIC_CLKSYNCH 4 SYNCH_OUT UMBL_SYNCOUT Analog power Extended sensor I/F connector RL78/G1A P41 (4pin) through Level Shifter Extended sensor I/F connector 5 6 AGND2 GAINAMP_OUT A_GND UMBL_GAMPOUT Analog power Extended sensor I/F connector 7 8 9 10 11 12 GAINAMP_IN MPXIN61 MPXIN51 MPXIN60 MPXIN50 AMP3_OUT UMBL_GAMPIN UMBL_MPXIN61 UMBL_MPXIN51 UMBL_MPXIN60 UMBL_MPXIN50 UMBL_AMP3OUT Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector 13 UMBL_DAC3OUT Extended sensor I/F connector 14 DAC3_OUT / VREFIN3 AMP2_OUT UMBL_AMP2OUT Extended sensor I/F connector 15 16 AGND1 AMP1_OUT A_GND UMBL_AMP1OUT Analog power Extended sensor I/F connector 17 18 AVCC UMBL_DAC2OUT Analog power Extended sensor I/F connector UMBL_DAC1OUT Extended sensor I/F connector - 20 21 22 23 24 25 26 27 28 29 30 31 AVDD1 DAC2_OUT / VREFIN2 DAC1_OUT / VREFIN1 MPXIN41 MPXIN31 MPXIN40 MPXIN30 MPXIN21 MPXIN11 MPXIN20 MPXIN10 AGND3 BGR_OUT AVDD2 LDO_OUT RL78/G1A ANI6 (50pin) RL78/G1A ANI7 (49pin) - UMBL_MPXIN41 UMBL_MPXIN31 UMBL_MPXIN40 UMBL_MPXIN30 UMBL_MPXIN21 UMBL_MPXIN11 UMBL_MPXIN20 UMBL_MPXIN10 A_GND BGR_OUT AVCC UMBL_VREFOUT Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector Analog power Grounded through C42 (0.1uF) Analog power Extended sensor I/F connector 32 AMP4_OUT UMBL_AMP4OUT Extended sensor I/F connector 33 34 35 AMP4_INN AMP4_INP TEMP_OUT UMBL_AMP4_IN_NE UMBL_AMP4_IN_PO UMBL_TMPOUT Extended sensor I/F connector Extended sensor I/F connector Extended sensor I/F connector 36 RESET SAIC_/RESET RL78/G1A-Smart Analog IC500 control signal monitor connector through Level Shifter RL78/G1A AVDD (47pin) through EF5 RL78/G1A ANI5 (51pin) RL78/G1A ANI17 (60pin) RL78/G1A P130 (57pin) 19 Smart Analog IC500 Terminal Name TESSERA TECHNOLOGY INC. Circuit Signal Name Destination 1 Destination 2 RL78/G1A ANI19 (1pin) RL78/G1A ANI16 (59pin) Amp peripheral circuit Amp peripheral circuit Amp peripheral circuit Amp peripheral circuit RL78/G1A ANI2 (54pin) - 14/63 TSA-IC500 37 38 DVDD SCLK DVCC SAIC_SCLK 39 SDO UMBL_SDO 40 SDI SAIC_SDI 41 CS SAIC_/CS 42 43 44 DGND DAC4_OUT / VREFIN4 HPF_OUT 45 USER'S MANUAL RL78/G1A SCK21 (29pin) D_GND UMBL_DAC4OUT Digital power RL78/G1A-Smart Analog IC500 control signal monitor connector through Level Shifter RL78/G1A-Smart Analog IC500 control signal monitor connector RL78/G1A-Smart Analog IC500 control signal monitor connector through Level Shifter RL78/G1A-Smart Analog IC500 control signal monitor connector through Level Shifter Digital power Extended sensor I/F connector UMBL_HPFOUT Extended sensor I/F connector CLK_HPF SAIC_CLKHPF 46 CLK_LPF SAIC_CLKLPF 47 48 AGND4 LPF_OUT A_GND UMBL_LPFOUT RL78/G1A TO00 (61pin) through Level Shifter RL78/G1A TO04 (3pin) through Level Shifter Analog power Extended sensor I/F connector RL78/G1A ANI4 (52pin) - TESSERA TECHNOLOGY INC. RL78/G1A SI21 (28pin) RL78/G1A SO21 (27pin) RL78/G1A P73 (26pin) - RL78/G1A ANI3 (53pin) 15/63 TSA-IC500 2.5 USER'S MANUAL Evaluation Circuit This section describes the evaluation circuit on the board. 2.5.1 Switch The board has 2 kinds of switches shown below table. Table 2.4 Switch Functions Reference Function SW1 Switch for external interrupts Connecting to INTP0 terminal of RL78/G1A Inputting High level to INTP0 terminal when releasing the switch, and Low level when pushing down the switch. Switch for board reset Connecting to RESET terminal of RL78/G1A Inputting High level to RESET terminal when releasing the switch, and Low level when pushing down the switch. MCU becomes reset status when Low level. SW2 SW2 SW1 (Switch for board reset ) (Switch for external interrupts ) Figure 2.5 Switch Layout TESSERA TECHNOLOGY INC. 16/63 TSA-IC500 2.5.2 USER'S MANUAL Clock Circuit RL78/G1A, mounted on this board, has a high-speed oscillator built-in as system clock. This board does not have a normal oscillator since use of high-speed built-in oscillator circuit is assumed. The pattern (XTAL2) is built on the board in case that frequency accuracy and frequency itself cannot meet the requirements. Lead type two/three terminal oscillator can be implemented. Also, XTAL3 (32.768kHz) is mounted as a sub clock. Oscillator for Subsystem clock Through-hole ground (Three-terminal oscillator ) Through-hole for mounting oscillator Footprint for mounting capacitor Figure 2.6 Clock Circuit Layout TESSERA TECHNOLOGY INC. 17/63 TSA-IC500 2.5.3 USER'S MANUAL Consumption Current Measurement Terminal There are measurement terminals on the board to measure consumption current for RL78/G1A and Smart Analog IC500. Disconnect 0Ω resistance (R20/R60/R89) before measuring the consumption current. VDD TP9 TP10 RL78/G1A VDD VDD R20 0Ω EVDD0 Figure 2.7 RL78/G1A Current Measurement Terminal AVDD1,2,3 DVDD TP11 AVCC TP12 IC500 R60 0Ω TP13 DVCC Smart Analog AVDD1 AVDD2 AVDD3 TP14 DVDD R89 0Ω Figure 2.8 Smart Analog IC500 Current Measurement Terminal TESSERA TECHNOLOGY INC. 18/63 TSA-IC500 2.5.4 USER'S MANUAL Smart Analog IC500 Analog Peripheral Circuit Smart Analog IC500 on the board has an operational amplifier, which has a resistance built-in for variable gain. Also, patterns are designed on the board for the case of connecting other parts. The size of a resistance should be 1608. Those resistances without constant mean that they are not mounted. AVCC R72 R71 R59 R58 R57 R56 MPXIN10 UMBL_MPXIN10 MPXIN11 UMBL_MPXIN11 - AMP1_OUT UMBL_AMP1OUT + MPXIN20 R61 MPXIN20 MPXIN21 UMBL_MPXIN21 R70 R69 R68 R67 R62 A_GND UMBL_AMP2OUT R63 AVCC Q1 0ohm R64 R73 R65 UMBL_AMP3OUT R66 470ohm A_GND Figure 2.9 Amplifier Peripheral Circuit 1: AMP1 * Caution: A phototransistor is connected to the input terminal MPXIN20 in the built-in operational amplifier AMP1. To connect other sensor, please disconnect R62. Mount the disconnected resistance to R61. TESSERA TECHNOLOGY INC. 19/63 TSA-IC500 USER'S MANUAL AVCC R85 R84 R77 R76 R75 R74 MPXIN30 UMBL_MPXIN30 MPXIN31 UMBL_MPXIN31 - AMP2_OUT UMBL_AMP2OUT + MPXIN40 UMBL_MPXIN40 MPXIN41 UMBL_MPXIN41 R83 R82 UMBL_AMP1OUT R81 R80 A_GND R79 R78 R86 UMBL_AMP3OUT R87 Figure 2.10 Amplifier Peripheral Circuit 2: AMP2 TESSERA TECHNOLOGY INC. 20/63 TSA-IC500 USER'S MANUAL AVCC R114 R113 R99 R98 R97 R96 MPXIN50 UMBL_MPXIN50 MPXIN51 UMBL_MPXIN51 - AMP3_OUT UMBL_AMP3OUT + MPXIN60 UMBL_MPXIN60 MPXIN61 UMBL_MPXIN61 R112 R111 UMBL_AMP1OUT R110 R109 A_GND R101 R100 R103 UMBL_AMP2OUT R102 Figure 2.11 Amplifier Peripheral Circuit 3: AMP3 TESSERA TECHNOLOGY INC. 21/63 TSA-IC500 USER'S MANUAL Analog signal of Smart Analog IC500 is connected to the input terminal of A/D converter in RL78/G1A. The pattern is mounted to be able to connect parts between Smart Analog IC500 and RL78/G1A. The size of parts should be 1608. A voltage-dividing resistance circuit and clamp circuit can be mounted. The patterns in below figure are mounted on Smart Analog IC500 terminals in below table. Those resistances without constant mean that they are not mounted. Smart Analog IC500 Terminal AMP1_OUT AMP2_OUT AMP3_OUT AMP4_OUT HPF_OUT LPF_OUT GAINAMP_OUT SYNCH_OUT RL78/G1A Reference Cx C28 C29 C56 C57 C58 C59 C55 C61 Reference Dx D2 D3 D4 D5 D6 D7 D1 D8 Reference Ry R120 R121 R122 R123 R124 R125 R119 R117 Reference Rz R129 R130 R131 R132 R133 R134 R128 R126 Smart Analog IC500 RL78_AVDD RL78_AVDD AVDD ADC Input Reference Rx R24 R25 R29 R26 R27 R28 R23 R21 Dx Ry 0ohm Rx 0ohm Cx Analog Output Rz A_GND Figure 2.12 Amplifier Peripheral Circuit 4 TESSERA TECHNOLOGY INC. 22/63 TSA-IC500 USER'S MANUAL With the ADC limitation of RL78/G1A, the maximum voltage that can apply to ADC is 3.3V. The analog terminal of Smart Analog IC500 can output maximum of 5V. Because of this, the pattern is mounted to be able to connect parts between Smart Analog IC500 and RL78/G1A, and a voltage-dividing circuit can be mounted. As an example, the formula, for evaluating the analog voltage from the analog terminal of Smart Analog IC500 when a voltage-dividing resistance is mounted, is described below. The formula to evaluate analog voltage from A/D conversion value (A/D conversion value register (ADCR 12bit)) is shown below. Analog Voltage1 = A/D conversion value 12 2 -1 × RL78_AVDD Analog Voltage1: A/D converter input voltage (V) RL78_AVDD: A/D converter power voltage (V) Analog Voltage1 divides output voltage from the analog terminal of Smart Analog IC500 by resistance. Thus, following formula describes the output voltage of analog terminal. ( Ry + Rz) Analog Voltage2 = Analog Voltage1× Rz Analog Voltage2: Output voltage (V) from analog terminal of Smart Analog IC500 In practice, the effect of resistance errors should be taken into consideration in above formula. RL78/G1A AVDD ADC Input Smart Analog IC500 RL78_AVDD RL78_AVDD Dx Ry 2kohm Rx 0ohm Cx Analog Output Rz 3kohm A_GND Figure 2.13 Example of Mounting Resistance for Voltage-dividing Circuit to Amplifier Peripheral Circuit 4 TESSERA TECHNOLOGY INC. 23/63 TSA-IC500 USER'S MANUAL Smart Analog IC500 terminal mounts patterns shown below figure. • TEMP_OUT Smart Analog IC500 RL78/G1A P02/ANI17 R22 0ohm TEMP_OUT Figure 2.14 Amplifier Peripheral Circuit 5 Smart Analog IC500 terminal mounts patterns shown below figure. RL78/G1A and Smart Analog IC500 are connected through a level-shifter with two power supply type to accept the voltage error between them. • CLK_HPF • CLK_LPF • CLK_SYNCH RL78/G1A VDD SN74LVC2T45 DVCC DVDD VDD Timer Output Smart Analog IC500 Voltage Level Shifter Clock Input Figure 2.15 Amplifier Peripheral Circuit 6 TESSERA TECHNOLOGY INC. 24/63 TSA-IC500 2.5.5 USER'S MANUAL Connector The board mounts many kinds of connectors. (Some parts are not mounted.) The table below describes the connectors. Table 2.5 Connector Function List Connector Reference CN1 Connector Form 2.5mm-pitch dipole connector Connector Part Name B2P-SHF-1AA CN2 CN3 TH1 USB Mini-B connector 2.54mm-pitch 14-pole connector 2.54mm-pitch 10-pole connector UX60SC-MB-5ST 7614-6002PL Not mounted TH2 TH3 2.54mm-pitch 50-pole connector 2.54mm-pitch 50-pole connector Not mounted Not mounted Function External power supply (+5.0V apply) USB I/F E1 emulator I/F RL78/G1A - Smart Analog IC500 control signal monitor Extended sensor I/F Extended MCU I/F 2.5.5.1 External Power Supply Connector As an external power supply connector, CN1 is mounted. Apply +5.0V with caring about plus and minus. For detail about selecting power sources from external power or USB power, please refer to “2.3.1 Power Options”. Figure 2.16 External Power Supply Connector Layout TESSERA TECHNOLOGY INC. 25/63 TSA-IC500 USER'S MANUAL 2.5.5.2 USB I/F Connector As an USB I/F connector, CN2 is mounted. It is connected to PC through USB controller (MAX3420). The cable is bundled, so please use it. For detail about selecting power sources from external power or USB power, please refer to “2.3.1 Power Options”. Figure 2.17 USB I/F Connector Layout TESSERA TECHNOLOGY INC. 26/63 TSA-IC500 USER'S MANUAL 2.5.5.3 E1 Emulator I/F Connector As an E1 Emulator I/F connector, CN3 is mounted. With E1 emulator connected, you can debug and program software. For details, please refer to “3.1Tutorial for SA-Designer and CubeSuite+”. Figure 2.18 E1 Emulator I/F Connector Layout * Caution: Do not supply power from E1 emulator. It may cause the board breakdown. TESSERA TECHNOLOGY INC. 27/63 TSA-IC500 USER'S MANUAL 2.5.5.4 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector As a RL78/G1A - Smart Analog IC500 Control Signal Monitor connector, TH1 is mounted. The parts are not mounted for TH1. Instead, through-holes are mounted for a flexible usage. They can be used for monitoring the control signals between RL78/G1A and Smart Analog IC500 or for controlling Smart Analog IC500 from CPU directly. When controlling Smart Analog IC500 from external CPU, process the control signal of RL78/G1A on the board appropriately. Table 2.6 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector TH1 Pin No. 1 2 3 4 5 6 7 8 9 10 Smart Analog IC500 Terminal No. Signal Name 38 SCLK 39 SDO 40 SDI 41 CS 36 RESET 3 CLK_SYNCH 46 CLK_LPF 45 CLK_HPF - Signal Name on Circuit Diagram UMBL_SCLK UMBL_SDO UMBL_SDI UMBL_CS UMBL_RESET UMBL_CLKSYNC UMBL_CLKLPF UMBL_CLKHPF D_GND D_GND Connection with RL78/G1A To 29-Pin SCK21 To 28-Pin SI21 To 27-Pin SO21 To 26-Pin P73 To 57-Pin P130 To 4-Pin TO07 To 3-Pin TO04 To 61-Pin TO00 - The red frame parts below are connected to TH1. RL78/G1A VDD SN74LVC2T45 DVCC Smart Analog IC500 DVDD VDD SCLK21 R37 SCLK SO21 R39 SDI P73 R40 CS L/S TO00 R34 TO04 R35 CLK_LPF TO07 R36 CLK_SYNCH P130 R32 RESET SI21 R38 SDO CLK_HPF VDD R32、R34−R40 0ohm R92 10kohm Figure 2.19 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector Circuit TESSERA TECHNOLOGY INC. 28/63 TSA-IC500 USER'S MANUAL Figure 2.20 RL78/G1A - Smart Analog IC500 Control Signal Monitor Connector Layout TESSERA TECHNOLOGY INC. 29/63 TSA-IC500 USER'S MANUAL 2.5.5.5 Extended Sensor I/F Connector As an extended sensor I/F connector, TH2 is mounted. The parts are not mounted for TH2. Instead, through-holes are mounted for a flexible usage. Table 2.7 Extended Sensor I/F Connector TH2 Pin No. 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 Smart Analog IC500 Terminal Signal Name No. 19 DAC1OUT 16 AMP1OUT 27 MPXIN10 25 MPXIN11 26 MPXIN20 24 MPXIN21 18 DAC2OUT 14 AMP2OUT 23 MPXIN30 21 MPXIN31 22 MPXIN40 20 MPXIN41 13 DAC3OUT 12 AMP3OUT 11 MPXIN50 9 MPXIN51 10 MPXIN60 8 MPXIN61 33 AMP4_INN 34 AMP4_INP 43 DAC4OUT 32 AMP4_OUT TESSERA TECHNOLOGY INC. Signal Name on Circuit Diagram TH2 Pin No. UMBL_DAC1OUT 2 UMBL_AMP1OUT 4 A_GND 6 UMBL_MPXIN10 8 UMBL_MPXIN11 10 UMBL_MPXIN20 12 UMBL_MPXIN21 14 UMBL_DAC2OUT 16 UMBL_AMP2OUT 18 A_GND 20 UMBL_MPXIN30 22 UMBL_MPXIN31 24 UMBL_MPXIN40 26 UMBL_MPXIN41 28 UMBL_DAC3OUT 30 UMBL_AMP3OUT 32 A_GND 34 UMBL_MPXIN50 36 UMBL_MPXIN51 38 UMBL_MPXIN60 40 UMBL_MPXIN61 42 UMBL_AMP4OUT_IN_NE 44 UMBL_AMP4OUT_IN_PO 46 UMBL_DAC4OUT 48 UMBL_AMP4OUT 50 Smart Analog IC500 Terminal Signal Name No. 35 TEMP_OUT 44 HPF_OUT 48 LPF_OUT 4 SYNCH_OUT 6 GAINAMP_OUT 2 SC_IN 7 GAINAMP_IN 31 LDO_OUT - Signal Name on Circuit Diagram AVCC A_GND A_GND No connection No connection No connection RL78_AVDD RL78_AVREFP RL78_AVREFM RL78_ANI8 RL78_ANI9 RL78_ANI10 RL78_ANI11 RL78_ANI12 UMBL_TMPOUT UMBL_HPFOUT UMBL_LPFOUT UMBL_SYNCOUT UMBL_GAMPOUT UMBL_SCIN UMBL_GAMPIN UMBL_VREFOUT A_GND A_GND AVCC 30/63 TSA-IC500 USER'S MANUAL Figure 2.21 Extended Sensor I/F Connector Layout We are selling the sensor extension board. This board is connected to Extended Sensor I/F Connector(TH2). Pin header is included with the board. Please mount the TH2 this pin header. Should be implemented in the same plane as the CN3(E1 Emulator I/F Connector). You can be extension by a sensor used in combination with TSA-IC500 as in TSA-EXT BOARD. Figure 2.22 TSA-IC500 connecting the sensor extension board TSA-EXT BOARD * TSA-EXT BOARD is not attached to the TSA-IC500. Please purchase separately. TESSERA TECHNOLOGY INC. 31/63 TSA-IC500 USER'S MANUAL It is a list of connecting signal TSA-EXT BOARD and TSA-IC500. TSA-IC500 TH2 TH2 Pin TSA-EXT BOARD Pin Signal 19 DAC1OUT CN1-1 TH1-1 2 Analog Power CN1-2 TH1-2 3 16 AMP1OUT CN1-3 TH1-3 4 Analog GND CN1-4 TH1-4 Analog GND Pin Smart Analog IC500 1 Signal CN1-5 TH1-5 6 Analog GND CN1-6 TH1-6 7 27 MPXIN10 CN1-7 TH1-7 8 N.C CN1-8 TH1-8 9 25 MPXIN11 CN1-9 TH1-9 10 N.C CN1-10 TH1-10 11 26 MPXIN20 * CN1-11 TH1-11 12 N.C CN1-12 TH1-12 13 24 MPXIN21 CN1-13 TH1-13 14 - (RL78_AVDD) ** CN1-14 TH1-14 15 18 DAC2OUT CN1-15 TH1-15 16 - (RL78_AVREFP) ** CN1-16 TH1-16 17 14 AMP2OUT CN1-17 TH1-17 18 - (RL78_AVREFM) ** CN1-18 TH1-18 CN1-19 TH1-19 20 - (RL78_ANI8) ** CN1-20 TH1-20 19 Analog GND 21 23 MPXIN30 CN1-21 TH1-21 22 - (RL78_ANI9) ** CN1-22 TH1-22 23 21 MPXIN31 CN1-23 TH1-23 24 - (RL78_ANI10) ** CN1-24 TH1-24 25 22 MPXIN40 CN1-25 TH1-25 26 - (RL78_ANI11) ** CN1-26 TH1-26 27 20 MPXIN41 CN1-27 TH1-27 28 29 13 DAC3OUT CN1-29 TH1-29 30 31 12 33 35 ** TSA-EXT BOARD Pin 5 * TSA-IC500 Smart Analog IC500 AMP3OUT Analog GND 11 MPXIN50 - (RL78_ANI12) ** 35 TEMP_OUT CN1-28 TH1-28 CN1-30 TH1-30 CN1-31 TH1-31 32 44 HPF_OUT CN1-32 TH1-32 CN1-33 TH1-33 34 48 LPF_OUT CN1-34 TH1-34 CN1-35 TH1-35 36 4 SYNCH_OUT CN1-36 TH1-36 37 9 MPXIN51 CN1-37 TH1-37 38 6 GAINAMP_OUT CN1-38 TH1-38 39 10 MPXIN60 CN1-39 TH1-39 40 2 SC_IN CN1-40 TH1-40 41 8 MPXIN61 CN1-41 TH1-41 42 7 GAINAMP_IN CN1-42 TH1-42 43 33 AMP4_INN CN1-43 TH1-43 44 31 LDO_OUT CN1-44 TH1-44 45 34 AMP4_INP CN1-45 TH1-45 46 Analog GND CN1-46 TH1-46 47 43 DAC4OUT CN1-47 TH1-47 48 Analog GND CN1-48 TH1-48 49 32 AMP4_OUT CN1-49 TH1-49 50 Analog Power CN1-50 TH1-50 Phototransistor is in the initial state are connected. Please implement by replacing the resistors R61/R62 MPXIN20 If you are using on this board. This signal is connected to the microcomputer RL78/G1A. TESSERA TECHNOLOGY INC. 32/63 TSA-IC500 USER'S MANUAL 2.5.5.6 Extended MCU I/F Connector As an extended MCU I/F connector, TH3 is mounted. The parts are not mounted for TH3. Instead, through-holes are mounted for a flexible usage. Table 2.8 Extended MCU I/F Connector TH3 Pin 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 RL78/G1A Connecting Destination 23 P76 28 P71 32 P30 58 P04 2 P43 35 P16 37 P14 39 P12 41 P10 61 P01 63 P141 6 RESET 21 P31 25 P74 4 P41 31 P05 17 P60 19 P62 33 P50 - TESSERA TECHNOLOGY INC. Signal Name D_GND RL78_P76 RL78_SI21 RL78_P30 RL78_P04 RL78_P43 RL78_P16 RL78_P14 RL78_SO00 RL78_SCK00 RL78_P01 RL78_P141 VDD RL78_/RESET RL78_P31 RL78_P74 RL78_P41 RL78_P05 RL78_P60 RL78_P62 RL78_INTP1 D_GND D_GND D_GND D_GND TH3 Pin 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 RL78/G1A Connecting Destination 22 P77 27 P72 29 P70 3 P42 36 P15 38 P13 40 P11 62 P00 64 P140 9 P137 24 P75 26 P73 30 P06 57 P130 18 P61 20 P63 34 P51 - Signal Name D_GND RL78_P77 RL78_SO21 RL78_SCK21 No connection RL78_P42 RL78_P15 RL78_P13 RL78_SI00 No connection RL78_P00 RL78_P140 VDD RL78_INTP0 RL78_P75 RL78_P73 RL78_P06 RL78_P130 RL78_P61 RL78_P63 RL78_INTP2 D_GND D_GND D_GND D_GND 33/63 TSA-IC500 USER'S MANUAL Figure 2.23 Extended MCU I/F Connector Layout TESSERA TECHNOLOGY INC. 34/63 TSA-IC500 USER'S MANUAL 3. Demonstration of Phototransistor Mounted on Board The tutorial will be describes in this section for customers to evaluate the design of analog frontend circuit. As the tutorial uses the phototransistor mounted on the board, customers can evaluate instantly. There are two ways to evaluate. Two tutorials will be explained in following order. ① Tutorial for SA-Designer and CubeSuite+ This is for those customers who have E1 emulator. Please download SA-Designer and CubeSuite+ from the Renesas Electronics web site. 3.1 Tutorial for SA-Designer and CubeSuite+ This section describes how to use SA-Designer and CubeSuite+ step by step. Please install SA-Designer and CubeSuite+ before stating this tutorial. The description assumes the PC is running Windows XP as the OS and the version of SA-Designer is “V1.01.00.08 [15 Oct 2012]” and CubeSuite+ is “V1.03.00 [11 Oct 2012]”. For details about functions and operations of SA-Designer and CubeSuite+, please refer to the help function. If you want to use other IDE, please get support for Renesas Electronics. Tutorial Steps Design Analog Frontend Circuit Using SA-Designer • Start SA-Designer • Design Evaluation Circuit for Mounted Phototransistor Create Project Using CubeSuite+ • Download Sample Source (main.c) • Start CubeSuite+ • Create Project in CubeSuite+ Experience Using TSA-IC500 • Prepare Before Demonstration • Demonstrate on Board TESSERA TECHNOLOGY INC. 35/63 TSA-IC500 3.1.1 USER'S MANUAL Design Analog Frontend Circuit Using SA-Designer 3.1.1.1 Start SA-Designer Start SA-Designer. When SA-Designer started, below window will open. TESSERA TECHNOLOGY INC. 36/63 TSA-IC500 USER'S MANUAL 3.1.1.2 Design Evaluation Circuit for Mounted Phototransistor You are going to design an evaluation circuit for mounted phototransistor. ① Click “GO” button in “Design New Circuit Diagram”. ② Enter and set following information on the "New Creation" window. ▪ Device name: R5F10FME(Smart Analog MCU500) * ▪ Source generation path : (Wherever needed; for example, “AFE-PT”) ▪ Library: Check “Generate the SPI Function” and ” Generate the graph-analysis library” * Normally, it should be “RL78/G1A R5F10ELEAFB”, but the version 1.01 of SA-Designer does not support it. Therefore, select the RL78/G1E “R5F10FME(Smart Analog MCU500)”. This device is a Smart Analog MCU packaging the CPU “RL78/G1A” and analog part “Smart Analog IC500”. So, the CPU is the same. TESSERA TECHNOLOGY INC. 37/63 TSA-IC500 USER'S MANUAL ③ Design an analog frontend circuit to use the phototransistor. Change the setting from the initial status as shown below circuit diagram. * Caution: Use the fixed voltage 3.3V for the adjustable output voltage regulator (LDO_OUT). RL78/G1A does not support voltage other than 3.3V. TESSERA TECHNOLOGY INC. 38/63 TSA-IC500 USER'S MANUAL ④ Generate sources by clicking “Generate” on the menu bar, then click “Generate Source file”. It generates C source code reflecting the circuit design result. ⑤ Save the design file by clicking "File" on the menu bar, then click "Save". It saves the circuit design result. ▪ File name: (Wherever needed; for example, "AFE-PT.ini") ▪ Creator: (Whoever needed) ▪ Description: (Whatever needed) TESSERA TECHNOLOGY INC. 39/63 TSA-IC500 3.1.2 USER'S MANUAL Create Project Using CubeSuite+ This section explains about starting CubeSuite+ and creating a new project. 3.1.2.1 Download Sample Program (main.c) Download the sample program (main.c) from the web site below, and save it in the folder created with SA-Designer. Currently, sample programs are provided with the user's manual. Web site is under construction. 3.1.2.2 Start CubeSuite+ Start CubeSuite+. Click “Tool” on the menu bar, and then select “Startup IDE”. CubeSuite+ will launch. CubeSuite+ can be launched from Windows Start menu. 3.1.2.3 Create Project in CubeSuite+ ① Open the menu by clicking “Start” button after CubeSuite+ starts. Click “GO” button in the “Create New Project” area. TESSERA TECHNOLOGY INC. 40/63 TSA-IC500 USER'S MANUAL ② Set following information on the "Create Project" window. ▪ ▪ ▪ ▪ ▪ Microcontroller: RL78 Using microcontroller: R5F10ELE(RL78/G1A/ROM64KB/64pin) Kind of project: Application (CA78K0R) Project name: (Whatever needed; for example, "AFE-PT") Place: (The folder created with SA-Designer) It would outputs a warning message regarding code generation. However, the operations in this user’s manual will not use the code generation. So, you can ignore it. TESSERA TECHNOLOGY INC. 41/63 TSA-IC500 USER'S MANUAL ③ Select “File”, “Add”, and then “Add File”. ④ Select “main.c”, and then click “Open”. TESSERA TECHNOLOGY INC. 42/63 TSA-IC500 USER'S MANUAL ⑤ Confirm the “main.c” is added under “File”. ⑥ Now switching the operation to SA-Designer. Switch to SA-Designer. Select “Generate” on the menu bar, and then select “Generate->Register Source File”. ⑦ When the registration completes, the following window displays. Click “OK”. TESSERA TECHNOLOGY INC. 43/63 TSA-IC500 USER'S MANUAL ⑧ Now switching the operation to CubeSuite+. Switch to CubeSuite+. Confirm the sources generated with SA-Designer are added under “File”. Following sources will be added under “File”: r_sadesigner_reg.c r_sadesigner.h r_sadesigner_reg.h r_cg_saic.c r_cg_saic.h r_dbg_graph.c r_dbg_graph.h r_dbg_graph.lib TESSERA TECHNOLOGY INC. 44/63 TSA-IC500 USER'S MANUAL ⑨ Go to “CA78K0R (Build Tool)”, “Link Option”, “Device”, and then set the following information. ▪ ▪ ▪ ▪ Use on-chip debug: Yes(-go) Option byte values for OCD: 84 Set user option byte: Yes(-gb) User option byte values: EFFFE8 Click the red-framed button below to rebuild. TESSERA TECHNOLOGY INC. 45/63 TSA-IC500 3.1.3 USER'S MANUAL Experience Using TSA-IC500 This section explains how to demonstrate with TSA-IC500. 3.1.3.1 Prepare Before Demonstration Preparation before checking the operation is explained. ① Change the debug tool to “RL78 E1(Serial)(L)”. TESSERA TECHNOLOGY INC. 46/63 TSA-IC500 USER'S MANUAL ② Confirm “Power target from the emulator[MAX 200mA]” is set to “No”. * Caution: Do not supply power from E1 emulator. TESSERA TECHNOLOGY INC. 47/63 TSA-IC500 USER'S MANUAL ③ Go to “Debug Tool Settings” and set following information for “Access Memory While Running”. ▪ Access by stopping execution: Yes ▪ Display update interval [ms]: 100 ④ Connect E1 emulator to E1 emulator I/F connector of TSA-IC500. PC USB Cable USBケーブル E1エミュレータ E1 Emulator (オンチップデバッガ) (On-chip debugging Emulator) TESSERA TECHNOLOGY INC. 48/63 TSA-IC500 USER'S MANUAL ⑤ Connect TSA-IC500 to PC with USB cable for supplying power. Alternatively, external power supply can be used with changing the JP1 setting. Confirm that the LED turns on. PC USB Cable E1 Emulator (On-chip debugging emulator) If "Found New Hardware Wizard" displays, please ignore it. Only do the power supply. TESSERA TECHNOLOGY INC. 49/63 TSA-IC500 USER'S MANUAL 3.1.3.2 Demonstrate on Board Checking the operation on the board is explained. ① Click the red-framed button below to download. ② Select the variable pt_data that is a variable displaying in graph, and then click “Register to Watch1”. ③ Confirm the variable pt_data is registered to "Watch1". TESSERA TECHNOLOGY INC. 50/63 TSA-IC500 USER'S MANUAL ④ Click “Analysis Chart” from "Program Analyzer". ⑤ Click “Reflect” button in “Analysis Chart” TESSERA TECHNOLOGY INC. 51/63 TSA-IC500 USER'S MANUAL ⑥ Confirm the variable pt_data is registered to " ch1" ⑦ Click “Property” from “Program Analyzer”. TESSERA TECHNOLOGY INC. 52/63 TSA-IC500 USER'S MANUAL ⑧ Set values shown below, and click “Execute” button. Click “Analysis Chart” when executed. ▪ Time per grid[Time/Div]: 200ms ▪ Value per grid[Val/Div]: 100 TESSERA TECHNOLOGY INC. 53/63 TSA-IC500 USER'S MANUAL ⑨ Try and see the value changes of variable according to the illuminance level. Figure 3.1 Phototransistor Position TESSERA TECHNOLOGY INC. 54/63 TSA-IC500 USER'S MANUAL 4. Hardware Materials 4.1 Circuit Diagrams The circuit diagrams are described in the following pages. TESSERA TECHNOLOGY INC. 55/63 GND ID_NC DD+ VBUS U_GND 1 2 UVCC TP5 U_GND TP8 D_GND A_GND 6 4 2 FFC-6BMEP1 5 3 JP1 U_GND U_GND RED 1 EF2 ADM1816-10ARTZ GND 3 RST 0.1uF VCC IC6 C12 UVCC 2 U_GND 1 1 4 U_GND UVCC TP7 VBUS EF1 U_GND 1 1 C3 Unmount 2 C18 100uF 2 1 1 12 25 21 22 23 24 1 2 5 6 18 U_GND 3 USB_/RES AVCC C20 0.1uF U_GND 0.1uF C17 UVCC DVCC D_GND 13 7 8 11 9 10 20 19 3 SCLK MOSI /SS MISO GND EN VIN IC9 NC VOUT 4 5 U_GND VDD C9 Unmount 3 D_GND C21 1uF C10 Unmount XTAL1 CSTCE12M0G55 U_GND 1 ADP151AUJZ-3.3-R7 2 3 1 0.1uF C1 U_GND R9 100Kohm U_GND C22 1uF INT RES SCLK MOSI SS MISO XO XI VL MAX3420EETG+ GPX EP GPIN0 GPIN1 GPIN2 GPIN3 GPOUT0 GPOUT1 GPOUT2 GPOUT3 VBCOMP DD+ GND4 GND14 VCC UVCC 1 2 IC4 NFM18PS105R0J3 A_GND C23 4.7uF EF3 DVCC 4 D_GND C19 4.7uF U_GND 1 IC7 TP1 2 15 16 4 14 17 SN74AHC1G08DCK# UVCC C4 1uF 10Kohm U_GND 2 U_GND 2 33ohm/1% 33ohm/1% UVCC R3 Near IC 1 1 1 4 100Kohm NC NFM18PC225B1A3 3 U_GND R8 R1 R2 GND 2 C2 Unmount DLP31SN121ML2 2 3 1 Differential 90 ohm TP6 B2P-SHF-1AA CN1 U_GND RED 0.1uF C11 5 4 2 3 2 BLM21PG221SN1 1 2 UVCC 1 2 1 IC3 Unmount ADP151AUJZ-3.3-R7 3 5 1 EN VOUT VIN VBUS 1 2 2 FB1 1 2 CN2 UX60SC-MB-5ST 1 VBUS FG2 FG1 1 2 1 A 2 K 1 2 R11 1 U_GND UVCC 100Kohm R17 1 1 U_GND R16 UVCC UVCC U_GND C5 Unmount 2 1 2 0ohm 2 0ohm U_GND C13 Unmount 2 1 FG2 FG1 1 14 13 12 11 15 9 16 10 2 2 2 2 VIA VIB VIC VOD GND1 GND1 1 1 1 VOA VOB VIC VID GND2 GND2 Date: Size A3 Title 2 2 2 VIA VIB VOC VOD GND1 GND1 VDD2A VDD1A VDD2B VDD1B IC8 Unmount ADuM7442CRQZ 1 1 1 1 VOA VOB VOC VID GND2 GND2 VDD2A VDD1A VDD2B VDD1B IC5 Unmount ADuM7441CRQZ D_GND VDD R12 R13 R14 R4 R5 R6 R7 14 13 12 11 15 9 16 10 D_GND VDD VDD D_GND D_GND Thursday , September 06, 2012 Document Number TS-TCS01443 TSA-IC500 Board 0ohm 0ohm 0ohm 3 4 5 6 2 8 1 7 0ohm 0ohm 0ohm 0ohm 3 4 5 6 8 2 1 7 C7 Unmount 2 1 C15 Unmount 2 1 2 1 2 5 3 1 2 1 2 2 1 1 2 1 A 2 LED2 SML-311UT K 1 2 1 2 1 1 1 2 1 R18 2 R19 2 1 1.6Kohm 2 LED1 SML-311UT 1 1.6Kohm R15 2 C6 Unmount 2 1 C14 Unmount 2 1 C8 Unmount 2 1 C16 Unmount 2 1 TESSERA TECHNOLOGY INC. R10 2 2 2 2 2 Sheet 1 of USB_VBUSEN 2 USB_INT 2 USB_/RESET_IN 2 USB_SCLK USB_MOSI USB_/SS USB_MISO 3 Rev V1.00 TSA-IC500 USER'S MANUAL 0ohm 0ohm 56/63 1 RL78_XT2 R55 RL78_XT1 D_GND C32 Unmount RL78_X1 3 UMBL_SY NCOUT 1 1 2 0ohm 3 D_GND 2 0ohm D_GND C36 3pF C34 4pF C30 0.47uF D_GND XTAL3 SSP-T7-FL_3.7pF C33 Unmount 7614-6002PL CN3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 63 64 62 61 48 47 6 5 9 37 36 35 20 19 18 17 R5F10ELEAFB P141/PCLBUZ1/INTP7 P140/PCLBUZ0/INTP6 P00/TI00/(KR0) P01/TO00/(KR1) AVSS AVDD D_GND VDD A_GND R129 Unmount RL78_TOOL0 C35 0.1uF SW2 D_GND C29 Unmount 1 2 SKRKAEE010 RL78_/RESET 10Kohm D_GND D3 Unmount AMP2OUT 1 2 3 4 5 6 7 8 9 10 FFC-10BMEP1 TH1 C56 Unmount AMP3OUT D4 Unmount RL78_AVDD A_GND R131 Unmount R122 0ohm 3 UMBL_AMP4OUT P43 P42/TI04/TO04 P10/ANI18/SCK00/SCL00/(KR0) P11/ANI20/SI00/SDA00/RxD0/TOOLRxD/(KR1) P12/ANI21/SO00/TxD0/TOOLTxD/(KR2) P13/ANI22/SO20/TxD2/(KR3) P50/ANI26/SI11/SDA11/INTP1 P51/ANI25/SO11/INTP2 RL78_AVDD A_GND R130 Unmount P06/TI06/TO06/KR9 P41/ANI30/TI07/TO07 P05/TI05/TO05/KR8 P130 P70/ANI28/SCK21/SCL21/KR0 P71/SI21/SDA21/KR1 P72/SO21/KR2 P73/SO01/KR3 A_GND C28 Unmount R121 0ohm P150/ANI8 P151/ANI9/(KR6) P152/ANI10/(KR7) P153/ANI11/(KR8) P154/ANI12/(KR9) P27/ANI7 P26/ANI6/(KR9) P25/ANI5/(KR8) P24/ANI4/(KR7) P23/ANI3/(KR6) P22/ANI2/(KR5) P21/ANI1/AVREFM P20/ANI0/AVREFP P76/INTP10/KR6 P75/SCK01/SCL01/INTP9/KR5 P74/SI01/SDA01/INTP8/KR4 P31/ANI29/TI03/TO03/INTP4 A_GND AMP1OUT D2 Unmount RL78_AVDD P120/ANI19 P02/ANI17/SO10/TxD1/(KR2) P03/ANI16/SI10/SDA10/RxD1/(KR3) P77/INTP11/KR7 P04/SCK10/SCL10/(KR4) P30/ANI27/SCK11/SCL11/INTP3/RTC1HZ 3 UMBL_AMP3OUT RESET P40/TOOL0 P137/INTP0 P14/ANI23/SI20/SDA20/RxD2/(KR4) P15/ANI24/SCK20/SCL20/(KR5) P16/TI01/TO01/INTP5 P63 P62 P61/SDAA0 P60/SCLA0 P124/XT2/EXCLKS P123/XT1 P122/X2/EXCLK P121/X1 REGC EVSS0 EVDD0 VSS VDD IC1 3 UMBL_AMP2OUT R120 0ohm A_GND A_GND C55 Unmount GAMPOUT D1 Unmount RL78_AVDD RL78_P141 RL78_P140 A_GND R128 Unmount R119 0ohm 3 UMBL_AMP1OUT 2 0ohm RL78_P00 RL78_P01 RL78_P14 RL78_P15 RL78_P16 RL78_P63 RL78_P62 RL78_P61 RL78_P60 RL78_/RESET RL78_TOOL0 7 8 RL78_XT2 RL78_XT1 12 14 16 13 10 11 C27 100pF C25 100pF RL78_X2 RL78_X1 C26 0.1uF C24 0.1uF 15 R53 D_GND D8 Unmount 1 A_GND R34 SY NCOUT C61 Unmount RL78_X2 Unmount XTAL2 D_GND D_GND EF5 RL78_AVDD NFM18PC104R1C3 1 3 D_GND RL78_AVDD A_GND R126 Unmount R117 0ohm 3 UMBL_GAMPOUT D_GND 1 EF4 NFM18PC104R1C3 1 3 RL78_INTP0 2 0ohm TP10 1 3 UMBL_CLKHPF R42 A_GND 3 UMBL_VREFOUT D_GND SW1 VDD R20 1 1 2 1 2 TP9 2 1 2 1 2 1 2 2 1 2 1 2 1 2 1 2 1 2 2 1 1 3 2 4 SKRPABE010 1 2 1 1 2 1 2 1 2 1 2 1 2 1 1 2 2 1 2 1 2 1 VDD 100ohm 2 1 2 2 1 4 1Kohm 1 R54 2 1 2 1 2 1 2 1 2 1 2 3 41 40 39 38 33 34 22 58 32 29 28 27 26 30 4 31 57 23 24 25 21 46 45 44 43 42 49 50 51 52 53 54 55 56 60 59 1 2 1 R36 1 R37 1 R38 1 R39 1 R40 1 R41 1 R43 1 R45 1 R46 1 R47 1 R48 1 R49 1 R35 1 RL78_SCK21 RL78_SI21 RL78_SO21 RL78_P73 RL78_P77 RL78_P04 RL78_P30 RL78_SCK00 RL78_SI00 RL78_SO00 RL78_P13 RL78_INTP1 RL78_INTP2 RL78_P43 RL78_P42 UMBL_SCLK UMBL_SDO UMBL_SDI UMBL_/CS UMBL_/RESET UMBL_CLKSY NC UMBL_CLKLPF UMBL_CLKHPF D_GND C57 Unmount 3 UMBL_LPFOUT A_GND R132 Unmount AMP4OUT D5 Unmount RL78_AVDD 3 UMBL_HPFOUT R32 1 RL78_P06 RL78_P41 RL78_P05 0ohm 0ohm 3 3 3 3 0ohm 0ohm 0ohm 0ohm 0ohm 0ohm 0ohm 0ohm A_GND SA-IC I/F 3 3 3 3 USB I/F C59 Unmount LPFOUT D7 Unmount RL78_AVDD A_GND C58 Unmount HPFOUT D6 Unmount RL78_AVDD UMBL_CLKLPF 3 USB_SCLK 1 USB_MISO 1 USB_MOSI 1 USB_/SS 1 USB_VBUSEN 1 USB_INT 1 USB_/RESET_IN 1 UMBL_SCLK UMBL_SDO UMBL_SDI UMBL_/CS UMBL_CLKSY NC 3 SA-IC I/F UMBL_/RESET 3 A_GND R134 Unmount R125 0ohm A_GND R133 Unmount R124 0ohm 2 2 2 2 2 2 2 2 2 2 0ohm 2 0ohm 2 0ohm 0ohm 2 2 RL78_ANI8 RL78_ANI9 RL78_ANI10 RL78_ANI11 RL78_P130 RL78_P76 RL78_P75 RL78_P74 RL78_P31 RL78_ANI7 RL78_ANI6 RL78_ANI5 RL78_ANI4 RL78_ANI3 RL78_ANI2 RL78_AVREFM RL78_AVREFP RL78_ANI17 RL78_ANI16 RL78_ANI19 R123 0ohm A_GND 2 2 1 2 1 2 1 2 1 2 1 2 1 R51 2 1 2 1 Date: Size A3 D_GND VDD R31 3Kohm R30 13Kohm D_GND VDD 2 of 3 RL78_INTP0 RL78_P75 RL78_P73 RL78_P06 RL78_P130 RL78_P61 RL78_P63 RL78_INTP2 RL78_P00 RL78_P140 RL78_P42 RL78_P15 RL78_P13 RL78_SI00 RL78_P77 RL78_SO21 RL78_SCK21 R50 Unmount C31 10uF R44 Unmount A_GND Sheet 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 FFC-50BMEP1 TH3 AMP1OUT AMP2OUT AMP4OUT HPFOUT LPFOUT AMP3OUT GAMPOUT Rev V1.00 UMBL_TMPOUT 3 SY NCOUT RL78_AVREFM 3 RL78_AVREFP 3 AVCC A_GND UMBL_VREFOUT 0ohm 2 2 0ohm 0ohm 2 2 0ohm 2 0ohm 2 0ohm 2 0ohm 2 0ohm 0ohm 2 Thursday , September 06, 2012 Document Number TS-TCS01443 TSA-IC500 Board RL78_/RESET RL78_P31 RL78_P74 RL78_P41 RL78_P05 RL78_P60 RL78_P62 RL78_INTP1 RL78_P76 RL78_SI21 RL78_P30 RL78_P04 RL78_P43 RL78_P16 RL78_P14 RL78_SO00 RL78_SCK00 RL78_P01 RL78_P141 Title 1 1 1 1 1 1 R24 R25 R26 R27 R28 R29 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 1 1 R22 R23 RL78_ANI12 3 1 R21 1 2 1 2 1 2 1 2 1 10Kohm 2 TESSERA TECHNOLOGY INC. R33 R52 2 TSA-IC500 USER'S MANUAL 1Kohm 57/63 1 R60 1 C43 4.7uF A_GND UMBL_MPXIN50 UMBL_MPXIN51 UMBL_MPXIN60 UMBL_MPXIN61 UMBL_AMP4_IN_NE UMBL_AMP4_IN_PO UMBL_DAC4OUT UMBL_AMP4OUT UMBL_MPXIN30 UMBL_MPXIN31 UMBL_MPXIN40 UMBL_MPXIN41 UMBL_DAC3OUT UMBL_AMP3OUT UMBL_MPXIN10 UMBL_MPXIN11 UMBL_MPXIN20 UMBL_MPXIN21 UMBL_DAC2OUT UMBL_AMP2OUT UMBL_DAC1OUT UMBL_AMP1OUT A_GND 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 R115 Unmount R106 Unmount 2 0ohm AVCC TP14 R89 1 A_GND 1 A_GND C38 0.1uF C40 10uF C39 10uF EF7 NFM18PC104R1C3 1 3 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 FFC-50BMEP1 TH2 R116 Unmount 42 37 31 32 33 34 29 47 1 28 30 15 5 17 AMP1_OUT AMP2_OUT AMP3_OUT MPXIN10 MPXIN11 MPXIN20 MPXIN21 MPXIN30 MPXIN31 MPXIN40 MPXIN41 MPXIN50 MPXIN51 MPXIN60 MPXIN61 RAA730500Z RESET SCLK SDO SDI CS TEMP_OUT SY NCH_OUT CLK_SY NCH DAC4_OUT/VREFIN4 CLK_HPF CLK_LPF SC_IN HPF_OUT LPF_OUT GAINAMP_IN GAINAMP_OUT DAC1_OUT/VREFIN1 DAC2_OUT/VREFIN2 DAC3_OUT/VREFIN3 RL78_AVREFP 2 RL78_AVREFM 2 RL78_ANI8 2 RL78_ANI9 2 RL78_ANI10 2 RL78_ANI11 2 RL78_ANI12 2 DGND DVDD LDO_OUT AMP4_OUT AMP4_INN AMP4_INP BGR_OUT AGND4 AVDD3 AGND3 AVDD2 AGND1 AGND2 AVDD1 IC2 UMBL_TMPOUT UMBL_HPFOUT UMBL_LPFOUT UMBL_SY NCOUT UMBL_GAMPOUT UMBL_SCIN UMBL_GAMPIN UMBL_VREFOUT AVCC RL78_AVDD 2 Unmount A_GND R108 1 R107 Unmount D_GND C44 0.1uF UMBL_VREFOUT UMBL_AMP4OUT UMBL_AMP4_IN_NE UMBL_AMP4_IN_PO C41 0.1uF A_GND EF6 NFM18PC104R1C3 1 3 C37 10uF 2 UMBL_AMP4OUT TP13 UMBL_AMP4_IN_NE UMBL_AMP4_IN_PO UMBL_AMP4OUT DVCC A_GND C42 0.1uF TP12 2 0ohm 2 UMBL_VREFOUT 1 TP11 1 1 2 1 1 2 1 2 1 36 38 39 40 41 35 4 3 43 DVCC D_GND DVCC D_GND SAIC_SCLK SAIC_/RESET SAIC_/CS SAIC_SDI D_GND DVCC SAIC_CLKSY NCH D_GND DVCC SAIC_CLKLPF SAIC_CLKHPF A_GND 1 4 2 3 1 4 2 3 1 4 2 3 1 4 2 3 SAIC_/RESET SAIC_SCLK SAIC_SDO SAIC_SDI SAIC_/CS UMBL_TMPOUT 1 8 5 7 6 8 5 7 6 8 5 7 6 SN74LVC2T45DCU# VCCA VCCB GND DIR A1 H=A->B B1 A2 L=B->A B2 SN74LVC2T45DCU# IC13 VCCA VCCB GND DIR A1 H=A->B B1 A2 L=B->A B2 SN74LVC2T45DCU# IC12 VCCA VCCB GND DIR A1 H=A->B B1 A2 L=B->A B2 8 5 7 6 SN74LVC2T45DCU# IC11 VCCA VCCB GND DIR A1 H=A->B B1 A2 L=B->A B2 R92 2 UMBL_MPXIN50 UMBL_MPXIN51 UMBL_MPXIN60 UMBL_MPXIN61 UMBL_AMP3OUT D_GND D_GND VDD D_GND VDD D_GND VDD VDD UMBL_SDO 1 VDD UMBL_MPXIN30 UMBL_MPXIN31 UMBL_MPXIN40 UMBL_MPXIN41 UMBL_AMP2OUT R73 470ohm/1% A_GND 2 10Kohm UMBL_MPXIN10 UMBL_MPXIN11 MPXIN20 UMBL_MPXIN21 UMBL_AMP1OUT SFH3710-3/4-Z Q1 AVCC UMBL_TMPOUT 2 IC10 2 Unmount R61 UMBL_SY NCOUT 2 UMBL_HPFOUT 2 UMBL_LPFOUT 2 UMBL_GAMPOUT 2 UMBL_SYNCOUT SAIC_CLKSYNCH C60 0.47uF R62 0ohm UMBL_AMP1OUT 2 UMBL_AMP2OUT 2 UMBL_AMP3OUT 2 UMBL_DAC4OUT SAIC_CLKHPF SAIC_CLKLPF UMBL_SCIN UMBL_HPFOUT UMBL_LPFOUT 2 44 48 45 46 UMBL_GAMPIN UMBL_GAMPOUT UMBL_DAC1OUT UMBL_DAC2OUT UMBL_DAC3OUT UMBL_AMP1OUT UMBL_AMP2OUT UMBL_AMP3OUT UMBL_MPXIN10 UMBL_MPXIN11 UMBL_MPXIN20 UMBL_MPXIN21 UMBL_MPXIN30 UMBL_MPXIN31 UMBL_MPXIN40 UMBL_MPXIN41 UMBL_MPXIN50 UMBL_MPXIN51 UMBL_MPXIN60 UMBL_MPXIN61 7 6 19 18 13 16 14 12 27 25 26 24 23 21 22 20 11 9 10 8 1 2 2 2 1 2 AVCC 2 2 1 1 2 1 2 1 2 2 1 2 1 2 1 2 C E 1 2 1 2 1 R67 Unmount R56 Unmount UMBL_CLKLPF 2 UMBL_CLKHPF 2 UMBL_CLKSY NC 2 UMBL_/CS 2 UMBL_SDI 2 UMBL_SCLK 2 UMBL_/RESET 2 A_GND R109 Unmount R96 Unmount AVCC A_GND R80 Unmount R74 Unmount AVCC A_GND 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 R110 Unmount R97 Unmount R81 Unmount R75 Unmount R68 Unmount R57 Unmount 1 2 1 2 1 2 1 2 1 2 1 D_GND 1 C46 0.1uF R111 Unmount R98 Unmount R82 Unmount R76 Unmount R69 Unmount R58 Unmount DVCC 2 1 2 R112 Unmount R99 Unmount R83 Unmount R77 Unmount R70 Unmount R59 Unmount C47 0.1uF R71 Unmount 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 R113 Unmount R84 Unmount C48 0.1uF 1 R72 Unmount Date: Size A3 Title R114 Unmount C49 0.1uF R79 Unmount VDD D_GND C51 0.1uF R101 Unmount C52 0.1uF R102 Unmount R63 Unmount 1 Thursday , September 06, 2012 Document Number TS-TCS01443 TSA-IC500 Board R100 Unmount R85 Unmount R78 Unmount 2 1 2 1 2 1 2 1 2 2 1 2 1 2 R103 Unmount R86 Unmount R64 Unmount Sheet C53 0.1uF 3 C54 0.1uF of R87 Unmount R65 Unmount 1 2 AVCC 1 2 1 2 1 2 1 2 1 2 2 1 2 1 2 1 2 1 2 1 TESSERA TECHNOLOGY INC. 2 3 Rev V1.00 R66 Unmount TSA-IC500 USER'S MANUAL 58/63 TSA-IC500 4.2 USER'S MANUAL Parts List The parts information is listed in the following page. TESSERA TECHNOLOGY INC. 59/63 TSA-IC500 TESSERA TECHNOLOGY INC. USER'S MANUAL 60/63 TSA-IC500 4.3 USER'S MANUAL Board Size Figure 4.1 shows the board size and the position of connectors. The through-holes for extended terminals are placed with 2.54mm-pitch. All linear dimensions are in millimeters. Figure 4.1 Board Size TESSERA TECHNOLOGY INC. 61/63 TSA-IC500 4.4 USER'S MANUAL Parts Layout Figure 4.2 shows the parts layout on the front side of the board, and Figure 4.3 shows the parts layout on the back side. For those references and part numbers of each part, please refer to the circuit diagram and parts list. Figure 4.2 Parts Layout (front side) TESSERA TECHNOLOGY INC. 62/63 TSA-IC500 USER'S MANUAL Figure 4.3 Parts Layout (back side) TESSERA TECHNOLOGY INC. 63/63