NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
XE8000EV104 XE88LC05AMIO28 XE88LC05MI028 XE88LC05AMI028 U0501 XE88LC05 LQFP64 - Datasheet Archive
Evaluation Board for the XE88LC05AMIO28 _ _ XE8000EV104 Evaluation Board for the XE88LC05MI028 User's Guide V1.0 For further
Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMIO28 XE88LC05AMIO28 _ _ XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05MI028 XE88LC05MI028 User's Guide V1.0 For further information please contact XEMICS SA E-mail: info@xemics.com Web: http://www.xemics.com/ XEMICS SA · e-mail: info@xemics.com · web: www.xemics.com Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 TABLE OF CONTENTS 1 GENERAL INTRODUCTION . 3 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 Introduction .3 Highlights .3 About this Guide .3 Documentation Updates .3 Recommended Reading .3 Troubleshooting .3 The XEMICS' Web Site .3 Customer Support.3 2 OVERVIEW AND INSTALLATION. 4 2.1 2.2 2.3 2.4 2.5 2.6 2.6.1 2.6.2 2.6.3 2.6.4 2.6.5 Introduction .4 Highlights .4 What is XE8000EV104 XE8000EV104 .4 XE8000EV104 XE8000EV104 components .4 How XE8000EV104 XE8000EV104 helps you .4 Installing XE8000EV104 XE8000EV104 hardware.5 Placing the chip on the ZIF socket .5 Using an external power supply .5 Using a button type battery.5 Using the ProStart II as power supply and programmer .5 Using an external clock source.5 3 ELECTRICAL SPECIFICATIONS AND HARDWARE DESCRIPTION . 6 3.1 3.2 Introduction .6 Hardware layout.6 4 TROUBLESHOOTING. 7 4.1 4.2 4.3 4.4 Introduction .7 Highlights .7 XE8000EV104 XE8000EV104 functionality .7 XE8000EV104 XE8000EV104 hardware .7 5 SCHEMATICS . 8 TABLE OF FIGURES Figure 1 : Position of the chip in the ZIF socket.5 Figure 2 : XE8000EV104 XE8000EV104 implantation map.6 Figure 3 : XE8000EV104 XE8000EV104 connectors.6 Figure 4 : XE8000EV104 XE8000EV104 Schematic .8 2 U0501 U0501 -194 Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 1 General Introduction 1.1 Introduction This first chapter contains general information that will be useful to know before using the XE8000EV104 XE8000EV104 with your XE88LC05AMI028 XE88LC05AMI028. 1.1.1 Highlights The information you will gain from this chapter: · About this Guide · Recommended Reading · Troubleshooting · The XEMICS' Web Site · Customer Support 1.2 About this Guide This document describes how to use The XE8000EV104 XE8000EV104 as an evaluation board to develop and debug programs on the XE88LC05 XE88LC05 microcontroller in LQFP64 LQFP64 package (the XE88LC05AMI028 XE88LC05AMI028). The manual Layout is as follows: · Chapter 2 : Overview and Installation · Chapter 3 : Electrical specifications and hardware description · Chapter 4 : Troubleshooting · Chapter 5 : Schematics 1.3 Documentation Updates All documentation evolves and this User's Guide is no exception. Since XE8000EV104 XE8000EV104 and other XEMICS' tools are constantly evolving to meet customer needs, some tool descriptions may differ from those in this document. Please refer to our web site at www.xemics.com to obtain the latest documentation available. 1.4 Recommended Reading This user's guide describes how to use The XE8000EV104 XE8000EV104. Other useful documents are listed below: · XE88LC05A XE88LC05A Datasheet. · ProStart II (XE8000MP XE8000MP) users guide · XEMICS' Application notes (AN8000 AN8000.xx). These can be found on our web site www.xemics.com/products/XE8000 1.5 Troubleshooting See Chapter 4 for information on common problems. 1.6 The XEMICS' Web Site XEMICS provides on line support on the XEMICS World Wide Web site. The web site is used by XEMICS as a means to make files and information easily available to customers. It is at http://www.xemics.com 1.7 Customer Support Customers should call their distributor, representative or field application engineer for support. Users of XEMICS products can receive assistance through several channels: · Distributors or Representative, Local Sales Office · Field Application Engineer (FAE) · Third party for source code 3 U0501 U0501 -194 Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 2 Overview and Installation 2.1 Introduction This chapter gives you an overview of the XE8000EV104 XE8000EV104 evaluation board and then explains how to install the system hardware. 2.2 Highlights The items discussed in this chapter include: · What is XE8000EV104 XE8000EV104 · XE8000EV104 XE8000EV104 components · How XE8000EV104 XE8000EV104 helps you · Installing XE8000EV104 XE8000EV104 hardware · 2.3 What is XE8000EV104 XE8000EV104 The XE8000EV104 XE8000EV104 is the evaluation board for XE88LC05 XE88LC05 microcontroller packaged in the LQFP64 LQFP64. This board is also designed to be interfaced with the XE8000MP XE8000MP board. Note that the combination of a XE8000MP XE8000MP, an XE8000SW XE8000SW and any XE8000EV1xx constitutes the ProStart II system. The XE8000EV104 XE8000EV104 allows the user access to every pin of the chip, and provides external actuators and indicators such as LEDs and buttons. 2.4 XE8000EV104 XE8000EV104 components The XE8000EV104 XE8000EV104 is delivered separately, with 3 XE88LC05AMI028 XE88LC05AMI028 samples. However you need to have the XE8000MP XE8000MP and the XE8000SW XE8000SW to program these samples. Since one XE8000MP XE8000MP fits for the whole XE8000 XE8000 family, this allows you to have multiple XE8000EVxxx without having to buy another XE8000MP XE8000MP. XE8000EV104 XE8000EV104 packages contents: · 1 XE8000EV104 XE8000EV104 board · 1 Box · 3 Samples 2.5 How XE8000EV104 XE8000EV104 helps you XE8000EV104 XE8000EV104 allows you to: · Create an action on an input port with buttons (note that jumpers can disable this feature) · Reset the circuit · See an action on an output port with LED (note that jumpers can disable this feature) · Interface a RS232 RS232 line driver (with the help of the XE8000MP XE8000MP) to the UART peripheral. · Use an on board 32 kHz watch Xtal, or an external clock source. · Measure the current consumption of the circuit · Power the board with three different sources : · An external power supply. · A button type battery. · The XE8000MP XE8000MP. 4 U0501 U0501 -194 Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 2.6 Installing XE8000EV104 XE8000EV104 hardware 2.6.1 Placing the chip on the ZIF socket The XE88LC05 XE88LC05 must be placed with its pin 1 marker aligned with the board pin 1 marker. See picture below: pin 1 marker Figure 1 : Position of the chip in the ZIF socket 2.6.2 Using an external power supply To use an external power supply, the user must connect the pins on the header named "EXT POWER" near the battery carrier with a regulated 1.2 to 5.5 Volts power supply. "+" is the pin nearest to the battery. The switch must be in the "on" position. Warning this power source is not protected by a fuse! The user should limit the current of the power supply source to prevent damage to board/chip. 2.6.3 Using a button type battery To power the application with a battery, you may place a button battery of the type cr1620 on the carrier (+ on the top, diameter 16mm height 2.0mm). Since the carrier is flexible, the height can vary a little bit. Warning this power source is not protected by a fuse! 2.6.4 Using the ProStart II as power supply and programmer To use the XE8000EV104 XE8000EV104 with the ProStart II as a power supply or a programmer please refer to ProStart II user guide. Note : When the ProStart II (XE8000MP XE8000MP) is connected all the other supply sources are bypassed, the default supply of the ProStart II (XE8000MP XE8000MP) is 3.0 Volts and the programming voltage is 5.0 Volts. 2.6.5 Using an external clock source To use an external clock source, the user must disconnect the on board xtal by removing the "quartz" jumper, and place their own source on the pin XIN on the header. 5 U0501 U0501 -194 Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 3 Electrical Specifications and Hardware Description 3.1 Introduction This chapter gives you a view of the main characteristics of the XE8000EV104 XE8000EV104 hardware. · · The buttons, LED and pins names are printed on the circuit board. Buttons are connected to the chip port A via X90-X91 X90-X91 jumpers and pulled down with resistors R23R30 R23R30. LEDs are connected to the chip port B via X10-11 X10-11 jumpers. Pull downs are connected to the chip port C via X20-21 X20-21 jumpers. S1 X30 X31 · · Hardware layout X3 3.2 V1 C4 X20 X21 C17 X10 X11 C16 X40 X41 C1 R9 R15 R16 R17 R18 R19 R20 R21 R1 R2 R3 R4 R5 R6 R7 R8 X4 H1 H2 H3 H4 H5 H6 H7 H8 + X50 X51 X1 X60 X61 X6 C19 X5 R24 R25 R26 R27 R28 R29 R30 R22 C24 S2 C20 R23 X80 X81 C22 C23 + C21 X70 X71 G1 1 C18 V9 K1 S11 S12 S13 S14 S15 S16 S17 S18 X91 X90 C25 Figure 2 : XE8000EV104 XE8000EV104 implantation map GND PC1 PC3 PC5 PC7 VDDA GND PB1 PB3 PB5 PB7 VDDA DAB_A1_M DAB_OUT DAB_R_P DAB_A0_P DAB_A1_M DAS_OUT AC_A5 AC_A7 AC_R3 AC_R1 AC_A1 AC_A3 N.C. N.C. N.C. VMULT N.C. N.C. GND PA1 PA3 PA5 PA7 VDDA X80 X81 X70 X71 X60 X61 X50 X51 X40 X41 X30 X31 VDD PC0 PC2 PC4 PC6 GND VDD PB0 PB2 PB4 PB6 GND GND DAB_A1_P DAB_R_M DAB_A0_M DAS_A0 DAS_A1_P AC_A4 AC_A6 AC_R2 AC_R0 AC_A0 AC_A2 OSCIN RESET N.C. VREG N.C. N.C. VDD PA0 PA2 PA4 PA6 GND Figure 3 : XE8000EV104 XE8000EV104 connectors 6 U0501 U0501 -194 Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 4 Troubleshooting 4.1 Introduction This section is intended to help the XE8000EV104 XE8000EV104 users to perform basic hardware debugging. 4.2 Highlights This chapter contains the following points: · XE8000EV104 XE8000EV104 functionality · XE8000EV104 XE8000EV104 hardware 4.3 XE8000EV104 XE8000EV104 functionality The software that should use the Xtal peripheral seems to be locked. Possible causes: 1 The jumper "quartz" is removed 2 You have disturbed the xin and xout lines with an oscilloscope probe. 3 The Xtal is not correctly soldered on the board. 4 The Xtal is damaged. When using the ProStart II (XE8000MP XE8000MP) as power supply, the VDDA seems to be unstable. Possible causes: 1 When the PortB 7 is not used as UART RX and the RS232 RS232 line driver creates an output conflict, simply remove the RS232 RS232 cable from the ProStart II (XE8000MP XE8000MP) and the RS232 RS232 output will go to High Z. 2 The power consumption of your application is above 500mA 4.4 XE8000EV104 XE8000EV104 hardware The board presents a short circuit between VDDA and GND. Possible causes: 1 The battery carrier has been damaged and the + contact touches the - : just put a piece of paper between the two contacts 2 If you are measuring a signal on the board, be careful when using the ground connection on the headers The power supply of the battery is not present on the VDDA line. Possible causes: 1 The power switch is in the wrong position, to use the battery the switch must be off. 2 The board is connected to a XE8000MP XE8000MP, in this case user power supplies are bypassed. The power supply of the external power supply is not present on the VDDA pin. Possible causes: 1 The power switch is in the wrong position, to use the external power supply the switch must be on. 2 The board is connected to a XE8000MP XE8000MP, in this case, user power supplies are bypassed. 7 U0501 U0501 -194 Copying of this document, and giving it to others and the use or communication of the contents thereof, are forbidden without express authority. Offenders are liable to the payment of damages. All rights reserved in the event of the grant of a patent or the registration of a utility model. PA7 PA6 PA5 PC0 X805 X815 X804 TESTCK_XE/PA1 PC3 PC4 PC5 PC6 PC7 X313 X303 X314 X304 X315 X305 RESET RESET DAB_R_P VDDA X613 0V1 0V1 0V1 C16 100N 0V1 C19 100N 0V1 C17 100N +V3 X3 2 R22 3K3 ext. supply X3 1 COM_REL1 VDD +V4 X4 BATTERIEHALTER VDDHIGH CK_CR_XE/OSCIN VDDA X711 DAS_AI_M X505 CK_CR_XE/OSCIN DAB_AI_M DAS_AI_P X501 DAB_AI_P X512 X516 DAB_R_M X513 X62 X64 S18 X503 X712 PC2 X302 SWITCH RESET PC1 X312 S2 +V4 0V1 C18 100N 0V1 2 R15 100K R24 100K S12 1 NC 2 VDDA VBAT - 1 3 R28 100K S16 R18 100K V1 NDS351 NDS351 K1 2XU_5V VDD K1 2XU_5V K1 2XU_5V 0V1 +V2 0V1 C25 100N +V4 0V1 C4 10U X1 1 40 42 43 44 1 2 3 PA2 PA3 PA4 PA5 PA6 PA7 5 6 7 8 X1 PA4 PA5 PA6 PA7 X91 4 X91 5 X91 6 X91 7 X91 8 X90 4 X90 5 X90 6 X90 7 X90 8 X21 1 X21 2 X21 3 X21 4 X21 5 X21 6 X21 7 X21 8 X20 1 X20 2 X20 3 X20 4 X20 5 X20 6 X20 7 X20 8 63 CK_CR_XE/OSCIN TEST/VPP TEST/VPP X5 1 X2 16 X2 X1 17 AC_A2 AC_A3 AC_A4 AC_A5 AC_A6 AC_A7 AC_R2 AC_R3 X2 27 X2 26 X2 25 X2 24 X2 23 X2 22 X2 21 X2 X2 X2 X2 X2 X2 VMULT DAS_AO X1 54 X1 X1 20 X2 33 X2 34 0V1 +V4 C23 100N TQFP-44 TQFP-44 X5 2 X2 G1 32.768KHZ 768KHZ 3 X2 39 X1 62 1 X1 56 X1 55 0V1 +V4 0V1 X715 X1 64 X1 59 X1 57 X1 50 X6 25 X6 24 X6 23 X6 22 X6 21 NC NC NC NC NC X706 X705 X703 X702 X701 X1 48 X1 49 X716 X1 47 X1 34 X1 32 PTCK_XE/OSCOUT C22 100N TQFP-64 TQFP-64 2 4 PTCK_XE/OSCOUT PTCK_XE/OSCOUT VMULT X1 58 X2 37 VREG X1 60 DAB_AO_M DAB_AO_P DAS_OUT X1 29 X1 28 X1 51 X1 X2 AC_R3 X1 35 DAB_OUT AC_R2 X1 36 X1 27 AC_A7 X1 37 VREG 38 X2 AC_A6 AC_A5 AC_A4 AC_A3 X1 38 X1 39 X1 40 X1 41 AC_A2 AC_A1 AC_A0 AC_R1 AC_R0 AC_A1 AC_A0 X1 42 CRYPTO AG X11 8 RXPB7/PB7 AC_R1 X1 43 NC X11 7 TXPB6/PB6 X6 15 X11 6 PB5 NC NC NC NC NC NC NC X11 5 PB4 X2 28 X1 44 NC X11 4 X2 30 X1 45 X713 X11 3 X2 29 X2 NC X11 2 PB3 X2 31 X1 46 X11 1 PB2 3 FILE: 3 2 H2 3 2 H3 R3 470R H4 R4 470R 0V1 3 2 3 2 LEDS PORT B R2 470R 650148_V FOR INTERNAL USE H1 R1 470R SCALE: LED_RT 2 H5 3 2 0V1 H6 3 2 H8 SAP-No: 37378 CHECKED 20.02.00 X41 2 X40 4 X41 5 X40 5 RXPB7/PB7 X61 4 X60 3 X50 2 X50 4 AC_R2 AC_R3 DAB_OUT DAB_AO_P 0V1 +V2 X6 8 SHEET DSP X511 1 of 1 MS X6 16 X6 14 X301 X401 X6 12 X416 X316 X6 10 X801 X816 X311 X411 X811 X306 X406 0V1 X6 11 SSL 650.148 XEMICS S.DIETHELM +V4 X6 20 X6 18 X6 17 X6 6 X806 X71 4 X61 3 AC_A7 X70 4 X60 2 AC_A6 VREG X61 2 AC_A5 VMULT X60 1 AC_A4 X51 4 X61 1 AC_A3 X51 5 X60 6 AC_A2 DAS_AO X61 6 AC_A1 X50 6 X60 5 AC_A0 DAS_OUT X61 5 AC_R1 DAB_AO_M X60 4 AC_R0 X40 3 X41 4 TXPB6/PB6 X41 3 PB5 X40 2 PB1 PB4 PB2 PB3 PB0 PB0 TXPB6/PB6 RXPB7/PB7 PTCK_XE/OSCOUT C20 1U R8 470R 0V1 3 2 20.02.00 H7 R7 470R C21 100N R6 470R DRAWN R5 470R PR: PROSTART SOCKETS 44/64 Block: SOCKETBOARD 44/64 X108 X107 X106 X105 X104 X103 X102 X101 JUMPERS PB PB1 AC_R0 X1 24 X1 23 X1 22 X1 21 X1 20 X1 19 X1 18 INDEX PB0 RXPB7/PB7 TXPB6/PB6 X2 32 X2 19 X2 18 PB5 PB4 X2 X2 X2 PB1 PB2 PB3 X1 JUMPER QUARZ 33 X1 53 DAS_AI_M CK_CR_XE/OSCIN CK_CR_XE/OSCIN X1 31 52 DAB_AI_M DAS_AI_P 36 X2 15 X2 X2 17 X2 14 X2 X2 X2 13 X2 PB0 X2 35 30 DAB_AI_P X1 26 DAB_R_M X1 X1 X1 X1 X1 X1 X1 X1 X1 25 61 16 15 14 13 12 11 DAB_R_P RESET RESET PC7 PC6 PC5 PC4 PC3 PC2 PC1 10 11 PC0 9 10 8 PC4 PC7 7 PC3 PC6 6 PC2 PC5 5 PC1 X1 X1 X1 X1 X1 X1 PC0 9 4 PA3 X91 3 X90 3 JUMPERS PC 3 PA2 X91 2 X90 2 X1 2 TESTCK_XE/PA1 X91 1 X90 1 4 41 TESTCK_XE/PA1 X2 12 X2 TQFP-44 TQFP-44 TQFP-64 TQFP-64 TESTIN_XE/PA0 TESTIN_XE/PA0 JUMPERS PA POWER R21 100K R30 100K V9 BAV99 BAV99 0V1 C1 100N TEST/VPP R20 100K R29 100K S17 VDDA_1 R19 100K R27 100K S15 0V1 10 0V1 + 1 R17 100K R26 100K S14 VDDHIGH R16 100K R25 100K S13 MICRO-SWITCHS PORT A S1 SWITCH BAT 3 C24 10P R9 100K R23 100K S11 4 1 PA4 3 2 PA3 4 1 PA2 3 2 X814 4 1 X803 3 2 X813 4 1 X802 3 2 TESTIN_XE/PA0 X61 X619 X69 X63 D-SUB 25P / FROM MOTHERBOARD 4 1 X812 WARPP-PINS 3 2 TESTCK_XE/PA1 4 1 4 1 TESTIN_XE/PA0 3 2 4 1 3 2 3 2 4 1 4 2 9 7 3 8 3 2 X67 1 - 1 + 3 Figure 4 : XE8000EV104 XE8000EV104 Schematic + 2 NC + 2 WRAPP-PINS 8 D-SUB 25P / TO MOTHERBOARD X65 Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 5 Schematics U0501 U0501 -194 Users Guide XE8000EV104 XE8000EV104 Evaluation Board for the XE88LC05AMI028 XE88LC05AMI028 ©XEMICS 2005 All rights reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights. 9 U0501 U0501 -194