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Freescale Semiconductor, Inc. M68MPB333UM/D REV 1 Freescale Semiconductor, Inc... March 1998 M68MPBF333 MCU PERSONALITY BOARD USER’S MANUAL © MOTOROLA, INC., 1994, 1998; All Rights Reserved For More Information On This Product, Go to: www.freescale.com Freescale Semiconductor, Inc... Freescale Semiconductor, Inc. Motorola reserves the right to make changes without further notice to any products herein to improve reliability, function or design. Motorola does not assume any liability arising out of the application or use of any product or circuit described herein; neither does it convey any license under its patent rights nor the rights of others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury or death may occur. Should Buyer purchase or use Motorola products for any such unintended or unauthorized application, Buyer shall indemnify and hold Motorola and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Motorola was negligent regarding the design or manufacture of the part. Motorola and the Motorola logo are registered trademarks of Motorola Inc. SDI is a trademark of Motorola Inc. Motorola Inc. is an Equal Opportunity/Affirmative Action Employer. For More Information On This Product, Go to: www.freescale.com Freescale Semiconductor, Inc. CONTENTS CONTENTS Freescale Semiconductor, Inc... CHAPTER 1 1.1 1.2 1.3 1.4 GENERAL INFORMATION INTRODUCTION............................................................................................................. 1-1 SPECIFICATIONS ........................................................................................................... 1-2 EQUIPMENT REQUIRED............................................................................................... 1-2 CUSTOMER SUPPORT .................................................................................................. 1-3 CHAPTER 2 HARDWARE PREPARATION AND INSTALLATION 2.1 2.2 INTRODUCTION............................................................................................................. 2-1 HARDWARE PREPARATION ....................................................................................... 2-1 2.2.1 Clock Select Header (W1) ......................................................................................... 2-5 2.2.2 VDDA Select Header (W2) ....................................................................................... 2-6 2.2.3 Voltage Reference High Select Header (W3)............................................................ 2-7 2.2.4 Voltage Reference Low Select Header (W4)............................................................. 2-8 2.2.5 VSSA Insertion Point (E1) ........................................................................................ 2-8 2.3 MEVB CONFIGURATION............................................................................................ 2-10 2.4 ACTIVE PROBE CONFIGURATION........................................................................... 2-12 CHAPTER 3 MEVB QUICK START GUIDE 3.1 3.2 INTRODUCTION............................................................................................................. 3-1 CONFIGURING THE MPFB........................................................................................... 3-1 3.2.1 MPFB Memory Devices ............................................................................................ 3-1 3.2.2 MPFB Jumper Headers.............................................................................................. 3-2 3.3 MEVB INSTALLATION INSTRUCTIONS.................................................................... 3-3 3.3.1 Power Supply – MPFB Connection........................................................................... 3-3 3.3.2 Personal Computer – BDM Connection .................................................................... 3-5 3.4 SOFTWARE INSTALLATION AND MCU INITIALIZATION.................................... 3-5 CHAPTER 4 4.1 4.2 MEVB SUPPORT INFORMATION INTRODUCTION............................................................................................................. 4-1 LOGIC ANALYZER CONNECTOR SIGNALS............................................................. 4-1 M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com iii Freescale Semiconductor, Inc. CONTENTS CHAPTER 5 5.1 5.2 INTRODUCTION............................................................................................................. 5-1 MAPI BUS CONNECTORS ............................................................................................ 5-1 CHAPTER 6 6.1 MAPI SUPPORT INFORMATION SCHEMATIC DIAGRAMS INTRODUCTION............................................................................................................. 6-1 Freescale Semiconductor, Inc... FIGURES 2-1. 2-2. 2-3. 2-4. 3-1. 5-1. 5-2. 5-3. 5-4. 5-5. M68MPBF333 (B version) Parts Location Diagram (top view)....................................... 2-3 M68MPBF333 (C version) Parts Location Diagram (top view)....................................... 2-3 MPB – MPFB Interconnection (with SDI Interface)....................................................... 2-11 Active Probe Interconnection (with Active Probe Box) ................................................. 2-14 MPFB Power Supply Connector....................................................................................... 3-4 MAPI Interface Connector Layout.................................................................................... 5-1 MAPI Interface Connector P1 Pin Assignments............................................................... 5-2 MAPI Interface Connector P2 Pin Assignments............................................................... 5-3 MAPI Interface Connector P3 Pin Assignments............................................................... 5-4 MAPI Interface Connector P4 Pin Assignments............................................................... 5-5 TABLES 1-1. 2-1. 2-2. 3-1. 4-1. 4-2. 4-3. 4-4. 4-5. 4-6. 4-7. 4-8. 4-9. 4-10. iv MPB Specifications........................................................................................................... 1-2 Jumper Header Types........................................................................................................ 2-4 MPB Jumper Header Descriptions.................................................................................... 2-4 MPFB Quick Start Jumper Header Configuration ............................................................ 3-2 Logic Analyzer Connector J7 Pin Assignments................................................................ 4-2 Logic Analyzer Connector J8 Pin Assignments................................................................ 4-2 Logic Analyzer Connector J9 Pin Assignments................................................................ 4-3 Logic Analyzer Connector J10 Pin Assignments.............................................................. 4-3 Logic Analyzer Connector J11 Pin Assignments.............................................................. 4-4 Logic Analyzer Connector J12 Pin Assignments.............................................................. 4-4 Logic Analyzer Connector J13 Pin Assignments.............................................................. 4-6 Logic Analyzer Connector J14 Pin Assignments.............................................................. 4-8 Logic Analyzer Connector J15 Pin Assignments.............................................................. 4-9 Logic Analyzer Connector J16 Pin Assignments.............................................................. 4-9 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. CONTENTS TABLES (continued) Logic Analyzer Connector J17 Pin Assignments.............................................................. 4-9 Logic Analyzer Connector J18 Pin Assignments............................................................ 4-10 Logic Analyzer Connector J19 Pin Assignments............................................................ 4-11 Logic Analyzer Connector J20 Pin Assignments............................................................ 4-11 Freescale Semiconductor, Inc... 4-11. 4-12. 4-13. 4-14. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com v Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... CONTENTS vi For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. GENERAL INFORMATION CHAPTER 1 GENERAL INFORMATION Freescale Semiconductor, Inc... 1.1 INTRODUCTION This manual provides general information, hardware preparation, installation instructions, a quick start guide, and support information for the M68MPBF333 MCU Personality Board (MPB). The MPB is one component of Motorola’s modular approach to MC68F333 Microcontroller Unit-based product development. This modular approach lets you easily configure our development systems to fit your requirements. The MPB may be used in either the MMDS1632 Motorola Modular Development System (MMDS) or the modular evaluation board (MEVB). The MEVB consists of the M68MPFB Modular Platform Board (MPFB) and an MPB. Alternately, you may install the MPB directly in your target system if the target system includes a modular active probe interconnect (MAPI) interface. The MCU device on the MPB defines which MCU is emulated/evaluated by the MMDS or evaluated by the MEVB. Both systems are invaluable tools for designing, debugging, and evaluating MCU operation of the M68HC12, M68HC16, and M68300 MCU families. By providing the essential MCU timing and I/O circuitry, these systems simplify user evaluation of prototype hardware/software products. The MPB includes: • M68MPBF333 MCU Personality Board (MPB) • Plastic overlay for use with the MEVB – pin outs for the logic analyzer connectors on the MPFB (specifically for the MC68F333 MCU) • Documentation (this manual) M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 1-1 Freescale Semiconductor, Inc. GENERAL INFORMATION 1.2 SPECIFICATIONS Table 1-1 lists MPB specifications. Table 1-1. MPB Specifications Freescale Semiconductor, Inc... Characteristic Specifications On-Board Clock Case style: 14- or 8-pin hybrid crystal clock oscillator (frequency as required by MCU). External Clock 32 KHz – 16.78 MHz (or maximum MCU allows). MCU I/O ports HCMOS compatible Temperature Operating Storage 0° to +40° C -40° to +85° C Relative humidity 0 to 90% (non-condensing) Power requirements +5Vdc ± 5% @ 500 mA (max.) Dimensions MCU Personality Board 3.25 x 3.25 in. (82.6 x 82.6 mm) 1.3 EQUIPMENT REQUIRED The external requirements for MPB operation are either an MPFB or MMDS system. For MMDS operation requirements, see the MMDS1632 Motorola Modular Development System User’s Manual, MMDS1632UM/D. For operation requirements for the MEVB, see this manual and the M68MPFB Modular Platform Board User’s Manual, M68MPFBUM/D. 1-2 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. GENERAL INFORMATION 1.4 CUSTOMER SUPPORT For information about a Motorola distributor or sales office near you call: Freescale Semiconductor, Inc... AUSTRALIA, Melbourne – (61-3)887-0711 Sydney – 61(2)906-3855 BRAZIL, Sao Paulo – 55(11)815-4200 CANADA, B. C., Vancouver – (604)606-8502 ONTARIO, Toronto – (416)497-8181 ONTARIO, Ottawa – (613)226-3491 QUEBEC, Montreal – (514)333-3300 JAPAN, Fukuoka – 81-92-725-7583 Gotanda – 81-3-5487-8311 Nagoya – 81-52-232-3500 Osaka – 81-6-305-1802 Sendai – 81-22-268-4333 Takamatsu – 81-878-37-9972 Tokyo – 81-3-3440-3311 KOREA, Pusan – 82(51)4635-035 Seoul – 82(2)554-5118 CHINA, Beijing – 86-10-68437222 MALAYSIA, Penang – 60(4)2282514 DENMARK – (45)43488393 FINLAND, Helsinki – 358-9-6824-400 MEXICO, Mexico City – 52(5)282-0230 Guadalajara – 52(36)21-8977 FRANCE, Paris – 33134 635900 PUERTO RICO, San Juan – (809)282-2300 GERMANY, Langenhagen/Hannover – 49(511)786880 Munich – 49 89 92103-0 Nuremberg – 49 911 96-3190 Sindelfingen – 49 7031 79 710 Wiesbaden – 49 611 973050 SINGAPORE – (65)4818188 HONG KONG, Kwai Fong – 852-6106888 Tai Po – 852-6668333 SPAIN, Madrid – 34(1)457-8204 SWEDEN, Solna – 46(8)734-8800 SWITZERLAND, Geneva – 41(22)799 11 11 Zurich – 41(1)730-4074 TAIWAN, Taipei – 886(2)717-7089 INDIA, Bangalore – (91-80)5598615 THAILAND, Bangkok – 66(2)254-4910 ISRAEL, Herzlia – 972-9-590222 UNITED KINGDOM, Aylesbury – 441(296)395-252 ITALY, Milan – 39(2)82201 UNITED STATES, Phoenix, AZ – 1-800-441-2447 For a list of the Motorola sales offices and distributors: http://www.mcu.motsps.com/sale_off.html M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 1-3 Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... GENERAL INFORMATION 1-4 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION CHAPTER 2 HARDWARE PREPARATION AND INSTALLATION Freescale Semiconductor, Inc... 2.1 INTRODUCTION This chapter provides unpacking instructions, hardware preparation information, and installation instructions for the MPB. When you unpack the MPB from its shipping carton, verify that all items are in good condition. Save packing material for storing and shipping the MPB. NOTE Should the MPB arrive damaged, save all packing material, and contact the carrier’s agent. 2.2 HARDWARE PREPARATION This portion of the manual explains how to prepare the MPB before use, as well as how to configure the MPB for system operation. This section also explains MPB installation in the MMDS and MEVB. The MPB has been factory tested and is shipped with installed jumpers. A jumper installed on a jumper header provides a connection between two points in the MPB circuit. The MPB has two types of jumper headers: three-pin and two-pin with a cut-trace short. A cut-trace short has a copper trace between the feedthrough holes (bottom or solder side of the MPB). Table 2-1 describes each type of jumper header. The MPB has four jumper headers (for which Table 2-2 is a quick reference guide). You may re-configured these jumper headers to customize MPB functionality. The following paragraphs explain each jumper header function. There is also an insertion point (E1) for connecting an external ground. Figure 2-1 shows the location of the MPB jumper headers and the insertion point. There are two versions of the M68MPBF333: B and C. On the B version the MCU is installed in a production socket on the board (Figure 2-1 shows the B version board layout). On the C version the MCU is installed in a clam-shell socket on the board (Figure 2-2 shows the C version board layout). M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 2-1 Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION NOTE Verify that all socketed parts are seated in their sockets. CAUTION Depending on your application, it may be necessary to cut the W2 wiring trace short (cut-trace short). Be careful not to cut adjacent PCB traces, nor cut too deep into the multi-layer circuit board. Freescale Semiconductor, Inc... If the cut-trace short on a jumper header is already cut, you can return the MPB to its default setting by installing a user-supplied fabricated jumper. MPB333B 01 - RE90379W ©1993 REV R1 + C2 C1 + L2 R2 S/ N W1 L1 MCU Clock Source C3 Y1 RN1 U1 RN4 R4 R5 Reference Mark C8 C9 R3 C10 + External Ground Connection C13 VDDA Source W3 W4 C15 L5 W2 E1 C14 L4 C12 RN3 L3 RN2 MC68F333 C4 C5 C6 C7 VRH Source + C16 VRL Source Figure 2-1. M68MPBF333 (B version) Parts Location Diagram (top view) 2-2 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 01 - RE90427W MPB33C REV C1 + + C2 S /N L1 MCU Clock Source C3 Y1 U1 RN1 Reference Mark RN2 W4 W3 R4 C4 L2 C9 C10 RN4 C7 R3 VRH Source + C5 R2 C8 C6 + VRL Source ©1993 RN3 Freescale Semiconductor, Inc... W1 R1 C11 VDDA Source L3 W2 E1 External Ground Connection Figure 2-2. M68MPBF333 (C version) Parts Location Diagram (top view) M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 2-3 Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION Table 2-1. Jumper Header Types Freescale Semiconductor, Inc... Jumper Header Type Symbol Description two-pin with cut-trace short Two-pin jumper header with cut-trace short, designated WX, where X = the jumper header number. If you cut the short, use a fabricated jumper to return the jumper header to its factory default state. three-pin Three-pin jumper header, designated WX, where X = the jumper header number. Use a fabricated jumper to create a connection between two of the three pins of the jumper header. Table 2-2. MPB Jumper Header Descriptions Jumper Header W1 W2 Type Description 1 2 3 Jumper between pins 1 and 2 (factory default); selects the MPB on-board crystal clock source. 1 2 Jumper installed or cut-trace short intact (factory default); selects the on-board VDDA power source. Jumper between pins 2 and 3; selects an external clock source to be the MCU EXTAL input signal. No jumper or cut-trace short; lets you connect an external power source to W2 pin 2 and the external-power-source ground to E1. NOTE Jumper header W2 is not populated by the factory. W3 W4 2-4 1 2 3 Jumper installed on pins 1 and 2 (factory default); selects the MPB on-board VRH power source. 1 2 3 Jumper installed on pins 1 and 2 (factory default); selects the MPB on-board VRL power source. Jumper installed on pins 2 and 3; selects an external VRH power source. Jumper installed on pins 2 and 3; selects an external VRL power source. For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 2.2.1 Clock Select Header (W1) Freescale Semiconductor, Inc... Jumper header W1 connects the MCU external clock (EXTAL) pin to either an on-board or external (target-system) clock source. The drawing below shows the factory configuration: a fabricated jumper on pins 1 and 2. This configuration selects the MPB on-board clock source; crystal oscillator in the Y1 socket. (This crystal provides for operation at the maximum rate the MCU allows via the internal phase-locked loop or direct clock input.) If you install the MPB in the active probe or directly on a target system, and use the target system clock as the MPB clock, move the fabricated jumper to W1 pins 2 and 3. This connects the MCU EXTAL pin to the MAPI bus input pin. The frequency of the external clock signal can be from 32 KHz to 16.78 MHz (or to the maximum the MCU allows). W1 1 2 3 NOTE You cannot drive the MPB clock circuit from an external source (target system) with a discrete crystal. If you use a target system clock source to drive the MPB clock circuit, always use a logicdriven clock such as a hybrid oscillator. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 2-5 Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 2.2.2 VDDA Select Header (W2) Jumper header W2 selects the MPB VDDA power source: either MPB power (VDDI) or an external source. The drawing below shows the factory configuration: a cut-trace short between pins 1 and 2. This configuration connects filtered VDDI to VDDA. Freescale Semiconductor, Inc... To use an external power source, remove the cut-trace short from W2 pins 1 and 2, then connect the external power source to W2 pin 2. Removal of the cut-trace short isolates the MCU VDDA pin from the other MPB circuitry. Isolation lets you connect a precision VDDA source for accurate 10-bit analog/digital (A/D) generation. When connecting an external VDDA power supply to the MPB, connect the power supply ground to insertion point E1. For more information on A/D generation refer to the Analog-To-Digital Converter Reference Manual, ADCRM/AD. W2 1 2 NOTES If the cut-trace short has been cut, you must install a fabricated jumper on W2 to return it to the factory configuration. Jumper header W2 is not populated by the factory. 2-6 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 2.2.3 Voltage Reference High Select Header (W3) Freescale Semiconductor, Inc... Jumper header W3 selects the voltage reference high (VRH) source: either MPB power (VDDA) or an external VRH source. The drawing below shows the factory configuration: a fabricated jumper on pins 1 and 2. This configuration selects VDDA as the VRH source. To use an external VRH source, first place the fabricated jumper on W3 pins 2 and 3. Then connect the MCU VRH pin to the external VRH source. Each configuration defines the best method for connecting the MCU VRH pin to the external VRH source: • MPB/MPFB – connect via the MPFB logic analyzer connector (refer to Chapter 4 for the appropriate logic analyzer pin). • MPB/MMDS1632 – connect via the VRH pin of the target MCU socket. • MPB/Target System – connect via the VRH pin of the target system MAPI bus. Alternately, you may remove the jumper and wire-wrap directly to W3 pin 2. Connecting directly to pin 2 is an option regardless of the configuration. W3 1 2 3 M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 2-7 Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 2.2.4 Voltage Reference Low Select Header (W4) Jumper header W4 selects the voltage reference low (VRL) source: either MPB power (VSSA) or an external VRL source. The drawing below shows the factory configuration: a fabricated jumper on pins 1 and 2. This configuration selects VSSA as the VRL source. Freescale Semiconductor, Inc... To use an external VRL source, first place the fabricated jumper on W4 pins 2 and 3. Then connect the MCU VRL pin to the external VRL source. Each configuration defines the best method for connecting the MCU VRL pin to the external VRL source: • MPB/MPFB – connect via the MPFB logic analyzer connector (refer to Chapter 4 for the appropriate logic analyzer pin). • MPB/MMDS1632 – connect via the VRL pin of the target MCU socket. • MPB/Target System – connect via the VRL pin of the target system MAPI bus. Alternately, you may remove the jumper and wire-wrap directly to W4 pin 2. Connecting directly to pin 2 is an option regardless of the configuration. W4 1 2 3 2.2.5 VSSA Insertion Point (E1) Insertion point E1 is a plate through hole that lets you connect an external ground to the MPB VSSA pin (refer to paragraph 2.2.2). Insert an external ground wire in E1 and solder it into the plate through hole. NOTE Insertion point E1 is not populated by the factory. 2-8 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 2.3 MEVB CONFIGURATION The MEVB contains: Freescale Semiconductor, Inc... • MPB – MCU-device-specific board that defines which MCU is evaluated. • M68MPFB1632 Modular Platform Board (MPFB) – which provides the interface connections to the host computer, logic analyzer connections, and the platform for installing the MPB. For more information about the MPFB and MEVB system connections, refer to the M68MPFB1632 Modular Platform Board User's Manual, M68MPFB1632/D. Chapter 3 contains information to help you get started using your MEVB. CAUTION Turn OFF MPFB power when installing the MPB on the MPFB or removing the MPB from the MPFB. Sudden power surges could damage MEVB integrated circuits. To install the MPB on the MPFB (refer to Figure 2-3): 1. Inspect all connectors for bent or damaged pins. 2. Align the MPB reference mark with the MPFB reference mark. 3. Rotate the MPB until the four MAPI bus connectors on its bottom mate with the MAPI bus connectors on the top of the MPFB. (There is only one way to connect the MPB and the MPFB.) 4. Firmly press the MPB onto the MPFB. CAUTION Support the bottom side of MPFB when installing the MPB on the MPFB. Excessive flexing of the MPFB could damage the printed circuit. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 2-9 Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... HARDWARE PREPARATION AND INSTALLATION Figure 2-3. MPB – MPFB Interconnection (with SDI Interface) After you have installed the MPB, install the plastic overlay on the MPFB: place the overlay over logic analyzer connectors J12 through J20 and press down. Holes in the overlay slide down over plastic clips on the MPFB. These clips hold the overlay in place. 2-10 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 2.4 ACTIVE PROBE CONFIGURATION The M68MMDS1632 Motorola Modular Development System (MMDS) consists of the station module and an active probe. The active probe consists of a three board set, two cables, and a box: • MPB – MCU-device-specific board that defines the MCU to be evaluated. Freescale Semiconductor, Inc... • Target Control Board (TCB) – the interface between the MPB, target system, and the station module. The TCB is supplied with the MMDS. For more information about the TCB refer to the M68MMDS1632 Motorola Modular Development System User's Manual, MMDS1632UM/D. • Package Personality Board (PPB) – the board that connects the active probe to the target system. The PPB must be purchased separately. For more information about the PPB refer to the appropriate user's manual. • Active probe cables (2) – the interface between the active probe and the station module. 01-RE90340W01 REV 0 and 01-RE90341W01 REV 0 are printed on the active probe cables. The active probe cables come with the MMDS. For more information about the active probe cables refer to the M68MMDS1632 Motorola Modular Development System User's Manual, MMDS1632UM/D. • Active probe box – the protective enclosure for the TCB. CAUTION Turn off MMDS and target system power when installing or removing MMDS components. Sudden power surges could damage MMDS and target system integrated circuits. To configure an active probe: 1. Inspect all connectors for bent or damaged pins. 2. Rotate the MPB until the four MAPI bus connectors on its bottom mate with the MAPI bus connectors on the top of the TCB. (There is only one way to connect the MPB and the TCB.) Firmly press the MPB and the TCB together. 3. Rotate the PPB until the four MAPI bus connectors on its top mate with the MAPI bus connectors on the bottom of the TCB. (There is only one way to connect the PPB and the TCB.) Firmly press the PPB and the TCB together. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 2-11 Freescale Semiconductor, Inc. HARDWARE PREPARATION AND INSTALLATION 4. Connect one end of the 01-RE90341W01 REV 0 active probe cable to connector P6 on the MMDS control board; connect the other end to connector J6 on the TCB. Connect one end of the 01-RE90340W01 REV 0 active probe cable to connector P5 on the MMDS control board; connect the other end to connector J5 on the TCB. Secure the connector clamps on TCB connectors J5 and J6. Freescale Semiconductor, Inc... The active probe is now ready to connect to the target system (refer to the PPB configuration guide for information on connecting the active probe to the target system.) Figure 2-4. Active Probe Interconnection (with Active Probe Box) 2-12 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB QUICK START GUIDE CHAPTER 3 MEVB QUICK START GUIDE Freescale Semiconductor, Inc... 3.1 INTRODUCTION This quick start guide is intended for the user who may not be familiar with Motorola’s development tools. This chapter explains the MEVB hardware and software set up for M68MEVB333 operation. Hardware set up consists of configuring the MPB and MPFB jumper headers; software set up consists of installing and running the appropriate macro script file within the debugger. For the purpose of this quick start guide the MPB jumper headers should be configured in their default positions. Chapter 2 of this manual contains the default jumper header settings for the MPB. 3.2 CONFIGURING THE MPFB This paragraph explains the MPFB jumper headers for operation with the M68MPBF333. The MPFB includes jumper-selectable options such as chip select usage, memory type selection and memory size selection for the pseudo ROM sockets, and reset data control. NOTE The MPFB must be configured for the specific MPB. Paragraph 3.2.2 provides a configuration for rudimentary MPFB operation. For a detailed description of the MPFB jumper header selections refer to the M68MPFB1632 Modular Platform Board User’s Manual, M68MPFB1632/D. 3.2.1 MPFB Memory Devices Pseudo ROM refers to memory locations U2 & U4. The two pseudo ROM sockets are generic memory sockets that accept a variety of RAM, EPROM, or EEPROM devices. The pseudo ROM sockets, as shipped from the factory, contain two 32K x 8 RAM devices. These memories are 28-pin package devices. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 3-1 Freescale Semiconductor, Inc. MEVB QUICK START GUIDE 3.2.2 MPFB Jumper Headers Configure your MPFB jumper headers per the instructions in Table 3-1. Table 3-1 contains information exclusively intended for quick start and ignores the other jumper headers. Freescale Semiconductor, Inc... Table 3-1. MPFB Quick Start Jumper Header Configuration Jumper Header Type Description W2 123 Install a jumper on pins 1 and 2 to configure pin 1 of the memory devices in the pseudo ROM sockets (U2 & U4) as a standard address line. W3 123 Install a jumper on pins 1 and 2 to indicate that the memory devices in the pseudo ROM sockets (U2 & U4) have 28 pins. W4 123 Install a jumper on pins 1 and 2 to set the pseudo ROM port size (memory data width) as word. W5 123 Install a jumper on pins 1 and 2 to disable the PRU. W10 1 3 5 2 4 6 Install a jumper on pins 1 and 2 to indicate that RAM is installed in the pseudo ROM sockets (U2 & U4). W12 1 3 5 7 9 2 4 6 8 10 Install a jumper on pins 3 and 4 to indicate that the two devices installed in the pseudo ROM sockets (U2 & U4) are 32K x 8. W14 123 Jumper header W14 selects the MCU signal for the memory devices in the fast RAM sockets (U9 & U10) and pseudo ROM sockets (U2 & U4). Pins 1 and 2 select the MCU chip select for the memory devices in the fast RAM sockets. Pins 2 and 3 of jumper header W14 select the chip select for the memory devices in the pseudo ROM sockets. Jumper installed on CSBOOT pins 2 and 3 (factory default); use CSBOOT as the memory device chip enable for memory devices in the pseudo ROM sockets. W16 12 No jumper installed; the MCU MODCLK signal is pulled high (logic 1) via a resistor during reset. W17 12 No jumper installed; the BERR signal is pulled high (logic 1) via a resistor during reset. 3-2 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB QUICK START GUIDE Freescale Semiconductor, Inc... Table 3-1. MPFB Quick Start Jumper Header Configuration (continued) Jumper Header Type W18 123 Install a jumper on pins 1 and 2 for unrestricted writes to the memory devices in the pseudo ROM sockets (U2 & U4). W19 123 Install a jumper on pins 1 and 2 to ground the A19 signal to the MPFB memory arrays. W22 123 Install a jumper on pins 1 and 2 to select the evaluation MCU (on the MPB) as an M68300 MCU device. Description 3.3 MEVB INSTALLATION INSTRUCTIONS MEVB installation requires a user-supplied power supply and host computer. The host computer must have a parallel port and must run MS-DOS, as required by ICD32. The following paragraphs explain MPFB connections. Refer to Chapter 2 for instructions to connect the MPB and MPFB. 3.3.1 Power Supply – MPFB Connection Use MPFB connector J5 (Figure 3-1) to connect a user-supplied power supply to the MEVB. Contact 1 is ground; black lever. Contact 2 is VDD (+5 volts); red lever. Use 20 or 22 AWG wire for power connections. For each wire, trim back the insulation 1/4 in. (.635 cm), lift the appropriate lever of J5 to release tension on the contacts, then insert the bare wire into J5 and close the lever. The MEVB requires a +5Vdc @ 1.0 amp power supply for operation. A 1.5 amp fuse is installed on the MPFB +5Vdc power supply input line. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 3-3 Freescale Semiconductor, Inc. MEVB QUICK START GUIDE BLK RED Freescale Semiconductor, Inc... GND J5 +5V Figure 3-1. MPFB Power Supply Connector CAUTIONS Do not use wire larger than 20 AWG in connector J5. Such wire could damage the connector. Turn off MEVB power when installing or removing the MPB from the MPFB. Sudden power surges could damage MEVB integrated circuits. 3-4 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB QUICK START GUIDE 3.3.2 Personal Computer – BDM Connection Freescale Semiconductor, Inc... Personal computer communication with the MEVB requires background debug mode (BDM) hardware. Connect your BDM hardware between your computer’s I/O port and the BDM header on the MPFB (MPFB connector J6). The drawing below shows signal assignments for connector J6. For additional information about your BDM software/hardware, including debugging and assembly information, see the appropriate user's manual. J6 DS 1 GND 3 GND 5 RESET 7 +5 Vdc 9 • • • • • • • • • • 2 BERR* 4 BKPT* 6 FREEZE 8 DSI 10 DSO 3.4 SOFTWARE INSTALLATION AND MCU INITIALIZATION After you have set up the MEVB hardware you must install the software on your computer. Follow the installation procedure in the appropriate software operations manual. The MCU must be initialized before the MEVB will function. The following is one possible initialization for the MPB333. You may adapt this example to your debugger. This initialization enables the maximum system clock frequency and disables the software watchdog while enabling the bus monitor. CSBOOT is set to zero-wait state and the block size set to 64K starting at $00000. The SRAM is enabled to reside at $10000 with A7 initialized at $101FE and the program counter (PC) initialized to $00400 (A7=101FE, PC=400). Load your program at address $00400. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 3-5 Freescale Semiconductor, Inc. MEVB QUICK START GUIDE Below is the MPB333.ICD initialization macro program listing. Freescale Semiconductor, Inc... reset pc=400 a7=400 mdf6 400 mdf3 400 symbol SCIMCR FFFA00 symbol SYNCR FFFA04 symbol CSBARBT FFFA48 symbol CSORBT FFFA4A symbol START 00400 mm.w SCIMCR 40CF mm.b SYNCR 7F watchdog mm.w CSBARBT 0003 mm.w CSORBT 7830 mdf6 START D0=00000000 D1=00000000 D2=00000000 D3=00000000 D4=00000000 D5=00000000 D6=00000000 D7=00000000 A0=00000000 A1=00000000 A2=00000000 A3=00000000 A4=00000000 A5=00000000 A6=00000000 A7=000101FE symbol SRAMBAH FFFB44 symbol SRAMMCR FFFB40 mmw SRAMBAH 0001 mmb SRAMMCR 00 mml 10000 4D6F746F mml 10004 726F6C61 mml 10008 20363833 mml 1000C 30302020 mml 10010 41647661 mml 10014 6E636564 mml 10018 20204D43 mml 1001C 55732020 3-6 Set module mapping to $FFF000-$FFFFFF Set system clock frequency to 16.78 MHz Disable watchdog timer Change CSBOOT block size to 64K Change wait state to zero Display program in PMM window Set SRAM Base Address Turn on SRAM Check SRAM: Write Motorola 68300 Advanced MCUs For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB QUICK START GUIDE Display SRAM in DMM window Show variables in F6 area Show variables in F6 area Show F3 area as ASCII characters Using Block Fill to pause macro execution Now show memory values in F6 area Now show memory values in F3 area Enter your program here Freescale Semiconductor, Inc... mdf3 10000 var.w CSORBT var.w CSBARBT var.w SCIMCR var.w SYNCR asciiF3 bf 400 2000 0 mdf6 asciiF3 PC=START M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 3-7 Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... MEVB QUICK START GUIDE 3-8 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION CHAPTER 4 MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... 4.1 INTRODUCTION This chapter’s information is pertains to using the MPB in an MEVB (the MPB installed on a MPFB). Signals on the MPFB logic analyzer connectors are defined by the MPB type. 4.2 LOGIC ANALYZER CONNECTOR SIGNALS The tables of this chapter describe MPFB logic analyzer connector signals if you install an M68MPBF333 on the MPFB. The signal descriptions on J12 – J20 are the logic analyzer pin-outs on the plastic overlay supplied with the MPB. NOTE The signal descriptions in the following tables are for quick reference only. The MC68F333 User's Manual, MC68F333UM/AD, contains a complete description of the MC68F333 MCU signals. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 4-1 Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-1. Logic Analyzer Connector J7 Pin Assignments Pin Mnemonic Signal 1, 2 SPARE No connection 3 OE(ALL) I/O PRU OUTPUT ENABLE – Input, active high; when low disables all PRU outputs. 4 – 11 PEPAR7 – PEPAR0 PEPAR OUTPUTS – Output signals that show the complement (negated contents) of the PEPAR register. 12 – 19 PE7 – PE0 PORT E I/O SIGNALS – PRU replacement of the port E function. 20 GND GROUND Table 4-2. Logic Analyzer Connector J8 Pin Assignments 4-2 Pin Mnemonic Signal 1, 2 SPARE 3 OE(ABG) I/O PRU OUTPUT ENABLE – Input, active high; when low disables port A, port B, and port G outputs. 4 – 11 PA7 – PA0 PORT A I/O SIGNALS – PRU replacement of the port A function. 12 – 19 PB7 – PB0 PORT B I/O SIGNALS – PRU replacement of the port B function. 20 GND No connection GROUND For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-3. Logic Analyzer Connector J9 Pin Assignments Pin Mnemonic Signal 1, 2 SPARE No connection 3 OE(H) I/O PRU OUTPUT ENABLE – Input, active high; when low disables the port H outputs. 4 – 11 PH7 – PH0 PORT H I/O SIGNALS – PRU replacement of the port H function. 12 – 19 PG7 – PG0 PORT G I/O SIGNALS – PRU replacement of the port G function. 20 GND GROUND Table 4-4. Logic Analyzer Connector J10 Pin Assignments Pin Mnemonic Signal 1 +5V +5 VDC POWER – Input voltage (+5Vdc @ 1.0 A) used by the MEVB logic circuits. (To make this pin a no connection, remove the jumper from jumper header W9 on the MPFB.) 2 SPARE 3 AS 4 – 19 A15 – A0 20 GND M68MPB333UM/D No connection ADDRESS STROBE – Active-low output signal that indicates whether a valid address is on the address bus. ADDRESS BUS BITS 15 – 0 – Sixteen bits of the 24-bit address bus. GROUND For More Information On This Product, Go to: www.freescale.com 4-3 Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-5. Logic Analyzer Connector J11 Pin Assignments Pin Mnemonic Signal 1 +5V +5 VDC POWER – Input voltage (+5Vdc @ 1.0 A) used by the MEVB logic circuits. (To make this pin a no connection, remove the jumper from jumper header W9 on the MPFB.) 2 SPARE 3 DS DATA STROBE – Active-low output signal. During a read cycle, indicates that an external device should place valid data on the data bus. During a write cycle, indicates that valid data is on the data bus. 4 – 19 D15 – D0 DATA BUS 15 – 0 – 16 bits of the MCU bi-directional data bus lines. 20 GND No connection GROUND Table 4-6. Logic Analyzer Connector J12 Pin Assignments Pin Mnemonic 1, 2 SPARE 3 CLKOUT 4 BERR BUS ERROR – Active-low signal that indicates a memory access error has occurred. 5 BKPT / BREAKPOINT – Active-low input signal that signals a hardware breakpoint to the CPU. DSCLK Development Serial Clock – Clock input signal for background debug mode. 6 FREEZE QUOT 7 Signal No connection SYSTEM CLOCK OUT – Output signal that is the MCU internal system clock. FREEZE – Output signal that indicates the CPU has acknowledged a breakpoint. QUOTIENT OUT – Output signal that furnishes the quotient bit of the polynomial divider for test purposes. LAT-DSO LATCHED INSTRUCTION PIPE 0 – Latched output (Latched IPIPE0) signal of the first state of IPIPE0 for CPU16-based MCUs; indicates instruction pipeline activity. Logic low for CPU32-based MCUs. 4-4 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-6. Logic Analyzer Connector J12 Pin Assignments (continued) Pin Mnemonic 8 LAT-DSI / (Latched IFETCH) 9 DSO Signal LATCHED INSTRUCTION FETCH (INVERTED) – Latched output signal of the inverted state of IFETCH for CPU32-based MCUs; indicates instruction pipeline activity. DEVELOPMENT SERIAL OUT – Serial data output signal for background debug mode. INSTRUCTION PIPE for CPU32-based MCUs. 10 DSI DEVELOPMENT SERIAL IN – Serial data input signal for background debug mode. INSTRUCTION FETCH for CPU32-based MCUs. 11 DSACK1 DATA AND SIZE ACKNOWLEDGE 1 – Active-low input signal that allows asynchronous data transfers and dynamic bus sizing between the MCU and external devices. 12 DSACK0 DATA AND SIZE ACKNOWLEDGE 0 – Active-low input signal that allows asynchronous data transfers and dynamic bus sizing between the MCU and external devices. 13 FC2 / FUNCTION CODE 2 – Output signal that identifies the processor state and address space of the current bus cycle. CS5 CHIP SELECT 5 – Output signal that selects peripheral or memory devices at programmed addresses. 14 FC1 FUNCTION CODE 1 – Output signal that identifies the processor state and address space of the current bus cycle. 15 FC0 / FUNCTION CODE 0 – Output signal that identifies the processor state and address space of the current bus cycle. CS3 CHIP SELECT 3 – Output signal that selects peripheral or memory devices at programmed addresses. SIZ1 TRANSFER SIZE – Output signal that indicate the number of bytes still to be transferred during this cycle. 16 M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 4-5 Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-6. Logic Analyzer Connector J12 Pin Assignments (continued) Pin Mnemonic Signal 17 SIZ0 TRANSFER SIZE – Output signal that indicate the number of bytes still to be transferred during this cycle. 18 R/W READ/WRITE – Output signal that indicates the direction of data transfer on the bus. 19 BGACK / 20 BUS GRANT ACKNOWLEDGE – Active-low input signal that indicates an external device has assumed bus mastership. CSE EMULATOR CHIP SELECT – Output signal that selects external emulation devices at internally-mapped addresses. CSE is used to emulate I/O ports. GND GROUND Table 4-7. Logic Analyzer Connector J13 Pin Assignments 4-6 Pin Mnemonic Signal 1 +5V +5 VDC POWER – Input voltage (+5Vdc @ 1.0 A) used by the MEVB logic circuits. (To make this pin a no connection, remove the jumper from jumper header W21 on the MPFB.) 2 SPARE 3 DSACK1 DATA AND SIZE ACKNOWLEDGE 1 – Active-low input signal that allows asynchronous data transfers and dynamic bus sizing between the MCU and external devices. 4 AVEC AUTOVECTOR – Active-low input signal that requests an automatic vector during interrupt acknowledge. 5 HALT HALT – Active-low input/output signal that suspends external bus activity, to request a retry when used with BERR, or for single-step operation. 6 AS No connection ADDRESS STROBE – Active-low output signal that indicates a valid address is on the address bus. For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-7. Logic Analyzer Connector J13 Pin Assignments (continued) Pin Mnemonic Signal 7 DS DATA STROBE – Active-low output signal. During a read cycle, indicates that an external device should place valid data on the data bus. During a write cycle, indicates that valid data is on the data bus. 8 BR / BUS REQUEST – Active-low input signal that indicates an external device requires bus mastership. CS0 CHIP SELECT 0 – Output signal that selects peripheral or memory devices at programmed addresses. BG / BUS GRANT – Active-low output signal that indicates the MCU has relinquished the bus. CSM INTERNAL MODULE CHIP SELECT – CSM is not supported on the MC68F333 MCU. 10 CSBOOT BOOT CHIP SELECT – An active-low output chip select for external boot startup ROM 11 CLKOUT SYSTEM CLOCK OUTPUT – MCU internal clock output signal. 12 A23 / ADDRESS BUS BIT 23 – One bit of the 24-bit address bus. CS10 CHIP SELECT 10 – Output signal that selects peripheral or memory devices at programmed addresses. A22 / ADDRESS BUS BIT 22 – One bit of the 24-bit address bus. CS9 CHIP SELECT 9 – Output signal that selects peripheral or memory devices at programmed addresses. A21 / ADDRESS BUS BIT 21 – One bit of the 24-bit address bus. CS8 CHIP SELECT 8 – Output signal that selects peripheral or memory devices at programmed addresses. A20 / ADDRESS BUS BIT 20 – One bit of the 24-bit address bus. CS7 CHIP SELECT 7 – Output signal that selects peripheral or memory devices at programmed addresses. 9 13 14 15 M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 4-7 Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-7. Logic Analyzer Connector J13 Pin Assignments (continued) Pin Mnemonic Signal 16 A19 / ADDRESS BUS BIT 19 – One bit of the 24-bit address bus. CS6 CHIP SELECT 6 – Output signal that selects peripheral or memory devices at programmed addresses. 17 – 19 A18 – A16 20 GND ADDRESS BUS 18 – 16 – Three bits of the 24-bit address bus. GROUND Table 4-8. Logic Analyzer Connector J14 Pin Assignments 4-8 Pin Mnemonic Signal 1, 2 SPARE 3 DSACK0 DATA AND SIZE ACKNOWLEDGE 0 – Active-low input signal that allows asynchronous data transfers and dynamic bus sizing between the MCU and external devices. 4 MODCLK CLOCK MODE SELECT – Input signal that configures the MCU internal clock at reset. 5 TSC THREE STATE CONTROL – When TSC is logic high, this input signal forces all output drivers to a highimpedance state. 6 RESET 7 RMC 8 SPARE 9 – 15 IRQ1 – IRQ7 16 – 19 SPARE 20 GND No connection RESET – Active-low, bi-directional signal to start a system reset. READ-MODIFY-WRITE CYCLE – Active-low output signal that identifies the bus cycle as part of an indivisible read-modify-write operation. No connection TARGET INTERRUPT REQUEST 1 – 7 - Active-low input signals from the target that asynchronously provides an interrupt priority level to the CPU. IRQ1 has the lowest priority, IRQ7 has the highest. No connection GROUND For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-9. Logic Analyzer Connector J15 Pin Assignments Pin Mnemonic 1–3 SPARE 4–8 GND 9 T2CLK 10 – 17 TPU15 – TPU8 18, 19 SPARE 20 GND Signal No connection GROUND TPU CLOCK – External input clock source to the TPU. TIME PROCESSOR UNIT CHANNELS – TPU input/output channels. No connection GROUND Table 4-10. Logic Analyzer Connector J16 Pin Assignments Pin Mnemonic 1–4 SPARE 5 – 12 TPU0 – TPU7 13 – 19 SPARE 20 GND Signal No connection TIME PROCESSOR UNIT CHANNELS – TPU input/output channels. No connection GROUND Table 4-11. Logic Analyzer Connector J17 Pin Assignments Pin Mnemonic 1–4 SPARE 5, 6 GND GROUND 7 RXD RECEIVE DATA – Serial data input line to serial communication interface. 8 TXD TRANSMIT DATA – Serial data output line to serial communication interface. 9 – 11 PCS3 – PCS1 M68MPB333UM/D Signal No connection PERIPHERAL CHIP SELECT 3– 1 – Active-low output SPI peripheral chip select signal. For More Information On This Product, Go to: www.freescale.com 4-9 Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Table 4-11. Logic Analyzer Connector J17 Pin Assignments (continued) Pin Mnemonic 12 PCS0 / Freescale Semiconductor, Inc... SS Signal PERIPHERAL CHIP SELECT 0 – Active-low output SPI peripheral chip select signal. SLAVE SELECT – Bi-directional, active-low signal that initiates serial transmission when SPI is in slave mode; causes mode fault in master mode. 13 SCK SPI SERIAL CLOCK – In master mode, the clock signal from the SPI; in slave mode the clock signal to the SPI. 14 MOSI MASTER-OUT, SLAVE-IN – Serial output from SPI in master mode; serial input to SPI in slave mode. 15 MISO MASTER-IN, SLAVE-OUT – Serial input to SPI in master mode; serial output from SPI in slave mode. 16 GND GROUND 17 – 19 SPARE 20 GND No connection GROUND Table 4-12. Logic Analyzer Connector J18 Pin Assignments 4-10 Pin Mnemonic 1–4 SPARE 5 VSSA 6–9 AN0 – AN3 10 VRL Signal No connection A/D GROUND – A/D ground reference. ANALOG INPUT 0 –3 – Analog input line to the MCU device. VOLTAGE REFERENCE LOW – Input reference supply voltage (low) line (must set jumper on the MPB). For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MEVB SUPPORT INFORMATION Freescale Semiconductor, Inc... Table 4-12. Logic Analyzer Connector J18 Pin Assignments (continued) Pin Mnemonic 11 VRH 12 – 15 AN4 – AN7 16 VSSA 17 – 19 SPARE 20 VSSA Signal VOLTAGE REFERENCE HIGH – Input reference supply voltage (high) line (must set jumper on the MPB). ANALOG INPUT 4 –7 – Analog input line to the MCU device. A/D GROUND – A/D ground reference. No connection A/D GROUND – A/D ground reference. Table 4-13. Logic Analyzer Connector J19 Pin Assignments Pin Mnemonic 1–4 SPARE 5 – 12 Signal No connection PADB0 – PADB7 ADC DIGITAL OUTPUT PORT BITS 0 –7 – Analog output bits from the MCU ADC port. 13 – 19 SPARE 20 GND No connection GROUND Table 4-14. Logic Analyzer Connector J20 Pin Assignments Pin Mnemonic 1–4 SPARE 5 – 18 GND 19 SPARE 20 GND M68MPB333UM/D Signal No connection GROUND No connection GROUND For More Information On This Product, Go to: www.freescale.com 4-11 Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... MEVB SUPPORT INFORMATION 4-12 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D Freescale Semiconductor, Inc. MAPI SUPPORT INFORMATION CHAPTER 5 MAPI SUPPORT INFORMATION Freescale Semiconductor, Inc... 5.1 INTRODUCTION This chapter information pertains to installing the MPB on a target system. The figures in this chapter show the MAPI interface connector layout and pin assignments for MPB connectors P1, P2, P3, and P4 (Figures 5-1 through 5-5). 5.2 MAPI BUS CONNECTORS The connectors required to interface to the MAPI bus are: 2 – Robinson Nugent, 2 X30 plugs, P50L-060P-AS-TGF 2 – Robinson Nugent, 2 X40 plugs, P50L-080P-AS-TGF CL 1 1 1 2.500 CL 1.250 CL 1 CL CL CL 1.250 2.500 Figure 5-1. MAPI Interface Connector Layout M68MPB16Y3UM/D For More Information On This Product, Go to: www.freescale.com 5-1 Freescale Semiconductor, Inc. MAPI SUPPORT INFORMATION Freescale Semiconductor, Inc... PCS0 / SS / PQS3 SCK / PQS2 MOSI / PQS1 MISO / PQS0 GND TPUCH0 TPUCH1 TPUCH2 TPUCH3 TPUCH4 TPUCH5 TPUCH6 TPUCH7 TPUCH8 TPUCH9 TPUCH10 TPUCH11 TPUCH12 TPUCH13 TPUCH14 TPUCH15 T2CLK GND GND GND GND GND A23 / CS10 / E A22 / CS9 / PC6 A21 / CS8 / PC5 A20 / CS7 / PC4 A19 / CS6 / PC3 FC2 / CS5 / PC2 FC1 / PC1 FC0 / CS3 / PC0 BGACK / CSE BG / CSM BR / CS0 CSBOOT +5V 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 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n 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 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND VFPE16K Figure 5-2. MAPI Interface Connector P1 Pin Assignments 5-2 For More Information On This Product, Go to: www.freescale.com M68MPB16Y3UM/D Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... MAPI SUPPORT INFORMATION GND GND GND GND GND GND GND GND No Connect GND A1 A3 / PB0 A5 / PB2 A7 / PB4 A9 / PB6 A10 / PB7 A12 / PA1 A14 / PA3 A16 / PA5 A18 / PA7 VFPE48K GND VSSA VSSA VSSA VSSA VSSA VSSA VSSA VSSA 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 51 53 55 57 59 n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n 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 52 54 56 58 60 PCS1 / PQS4 PCS2 / PQS5 PCS3 / PQS6 TXD / PQS7 RXD GND GND GND +5V GND A2 A4 / PB1 A6 / PB3 A8 / PB5 GND A11 / PA0 A13 / PA2 A15 / PA4 A17 / PA6 GND +5V GND VSSA PADA0 / AN0 PADA1 / AN1 PADA2 / AN2 PADA3 / AN3 MAPI-VRL MAPI-VRH PADA4 / AN4 Figure 5-3. MAPI Interface Connector P2 Pin Assignments M68MPB16Y3UM/D For More Information On This Product, Go to: www.freescale.com 5-3 Freescale Semiconductor, Inc. MAPI SUPPORT INFORMATION Freescale Semiconductor, Inc... VSSA VSSA VSSA VSSA GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND MAPI-EXTAL GND GND +5V 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 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n 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 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 PADA5 / AN5 PADA6 / AN6 PADA7 / AN7 VSSA PADB0 PADB1 PADB2 PADB3 PADB4 PADB5 PADB6 PADB7 GND GND GND GND GND GND GND GND GND GND GND GND GND GND VSTBY DSO / IPIPE DSI / IFETCH HALT RESET BERR BKPT / DSCLK TSC FREEZE GND GND CLKOUT GND +5V Figure 5-4. MAPI Interface Connector P3 Pin Assignments 5-4 For More Information On This Product, Go to: www.freescale.com M68MPB16Y3UM/D Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... MAPI SUPPORT INFORMATION +5V GND D1 / PH1 D3 / PH3 D5 / PH5 D7 / PH7 D8 / PG0 D10 / PG2 D12 / PG4 D14 / PG6 GND A0 DSACK0 / PE0 DSACK1 / PE1 AVEC / PE2 RMC / PE3 DS / PE4 AS / PE5 SIZ0 / PE6 SIZ1 / PE7 R/W MODCLK / PF0 IRQ1 / PF1 IRQ2 / PF2 IRQ3 / PF3 IRQ4 / PF4 IRQ5 / PF5 IRQ6 / PF6 IRQ7 / PF7 +5V 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 51 53 55 57 59 n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n 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 52 54 56 58 60 +5V D0 / PH0 D2 / PH2 D4 / PH4 D6 / PH6 GND D9 / PG1 D11 / PG3 D13 / PG5 D15 / PG7 GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND GND No Connect Figure 5-5. MAPI Interface Connector P4 Pin Assignments M68MPB16Y3UM/D For More Information On This Product, Go to: www.freescale.com 5-5 Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... MAPI SUPPORT INFORMATION 5-6 For More Information On This Product, Go to: www.freescale.com M68MPB16Y3UM/D Freescale Semiconductor, Inc. SCHEMATIC DIAGRAMS CHAPTER 6 SCHEMATIC DIAGRAMS Freescale Semiconductor, Inc... 6.1 INTRODUCTION This chapter contains the M68MPB916R3 MCU Personality Board (MPB) schematic diagrams. These schematic diagrams are for reference only and may deviate slightly from the circuits on your MPB. M68MPB333UM/D For More Information On This Product, Go to: www.freescale.com 6-1 D For More Information On This Product, Go to: www.freescale.com 4 ZONE O A REV DATE: PROJECT LEADER: 3 R. G. R. G. DATE: 10/26/93 R. G. GEDABV: MPBF333B GEDTTL: BOARD 2 AUSTIN, TEXAS 78735 1 A REV: USA R.G. APPROVED SHEET 1 OF 8 63ASE90379W DWG. NO. SCHEMATIC MPBF333B LAST_MODIFIED=Wed Jun 22 14:50:30 1994 A SIZE TITLE: 6501 WILLIAM CANNON DRIVE WEST MICROPROCESSOR AND MEMORY TECHNOLOGIES GROUP 10/26/93 DATE 1 C D A A DESIGN ENGINEER: DATE: CHANGE XFC CAP PKG SIZE ONLY ORIGINAL RELEASE DESCRIPTION REVISIONS 63ASE90379W DRAWN BY: MOTOROLA RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION, OR DESIGN. MOTOROLA DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN. TITLE & REVISITION STATUS NOTES BYPASS CAPACITORS, CLEAN POWER & SIGNAL FILTERS MODULAR ACTIVE PROBE INTERCONNECT P1 & P3 MODULAR ACTIVE PROBE INTERCONNECT P2 & P4 MCU & CLOCK PULLUPS/PULLDOWNS/PERSONALITY ID SIGNAL CROSS REFERENCES TABLE OF CONTENTS Freescale Semiconductor, Inc... 3 2 DWG. NO. A B C 1 2 3 4 5 6 7 8 4 Freescale Semiconductor, Inc. REV: D For More Information On This Product, Go to: www.freescale.com 4 GEDABV: MPBF333B GEDTTL: BOARD 2 1 A REV: SHEET 2 OF 8 63ASE90379W DWG. NO. LAST_MODIFIED=Wed Jun 22 14:49:05 1994 A NOTES C D A A SIZE DEVICE TYPE NUMBER IS FOR REFERENCE ONLY. THE NUMBER VARIES WITH THE MANUFACTURER. SPECIAL SYMBOL USAGE: * DENOTES - ACTIVE LOW SIGNAL. <> DENOTES - VECTORED SIGNALS. INTERPRET DIAGRAM IN ACCORDANCE WITH AMERICAN NATIONAL STANDARDS INSTITUTE SPECIFICATIONS, CURRENT REVISION, WITH THE EXCEPTION OF LOGIC BLOCK SYMBOLOGY. CODE FOR SHEET TO SHEET REFERENCES IS AS FOLLOWS: 5 C7 < > OUTPUT SHEET INPUT ZONE VCC LOCATIONS UNLESS OTHERWISE SPECIFIED, VCC IS APPLIED TO: PIN 8 OF ALL 8-PIN ICS PIN 14 OF ALL 14-PIN ICS PIN 16 OF ALL 16-PIN ICS PIN 20 OF ALL 20-PIN ICS, ETC. GROUND LOCATIONS UNLESS OTHERWISE SPECIFIED, GROUND IS APPLIED TO: PIN 4 OF ALL 8-PIN ICS PIN 7 OF ALL 14-PIN ICS PIN 8 OF ALL 16-PIN ICS PIN 10 OF ALL 20-PIN ICS, ETC. 1 63ASE90379W 3 8. 7. 6. 5. 4. 3. NOTES: 1. UNLESS OTHERWISE SPECIFIED: ALL RESISTORS ARE IN OHMS, 5%, 1/8 WATT. ALL CAPACITORS ARE IN UF. 50V. ALL VOLTAGES ARE DC. 2. INTERRUPTED LINES CODED WITH THE SAME LETTER OR LETTER COMBINATIONS ARE ELECTRICALLY CONNECTED. Freescale Semiconductor, Inc... 3 2 DWG. NO. A B C 4 Freescale Semiconductor, Inc. REV: D For More Information On This Product, Go to: www.freescale.com VRL MAPI-VRL 5B1> MAPI-VRH 5B1> 6B1< VRH 6B1< GND 4 C65 GND C9 VSSA 2 1 VSSA C8 0.1UF 1 0.1UF 2 VSSA VDDA W4 1 2 3 W3 1 2 3 1 0.1UF 2 C66 C55 1 0.1UF 2 GND ADC MODULE GND 1 0.1UF 2 GND C53 1 0.1UF 2 VRH & VRL SELECTION GND 1 0.1UF 1 0.1UF C63 2 2 C60 GND C51 1 0.1UF C3 1 0.1UF GND 2 2 FOR VDDE OF MCU AND OSCILLATOR +5V AND GND DECOUPLING C67 GND 3 1 0.1UF 2 GND C56 1 0.1UF 2 C69 VSSA 1 2 GND C12 0.1UF 1 0.1UF 2 GND C58 1 0.1UF 2 VSSA 1 2 C13 0.1UF VSSA 1 2 C14 0.1UF VSSA 1 2 VSSI VDDI L5 1UH L4 ADC MODULE TANT + 1 C1 10UF 2 25V 2 2 E1 ADC MODULE 1 1 2 W2 (CUT TRACE ON BOARD) C61 1 0.1UF 2 TANT + 1 C11 10UF 2 25V VSSA 1 C6 0.1UF VSSA 1 2 C7 0.1UF VSSA 1 2 C5 0.1UF AN<7> C16 1 0.1UF 2 C52 VSSA VDDA VSSI 1 0.1UF 2 VDDI AN<7..0> 1 4C1> 5B1> GEDABV: MPBF333B GEDTTL: BOARD 2 1 A REV: SHEET 3 OF 8 63ASE90379W DWG. NO. LAST_MODIFIED=Wed Jun 22 15:37:05 1994 A A A SIZE C D 63ASE90379W BYPASS CAPACITORS, CLEAN POWER & SIGNAL FILTERS C4 0.1UF 2 AN<6> AN<5> AN<4> AN<3> AN<2> AN<1> AN<0> ANALOG SIGNAL FILTERS VSSA 1 2 2 FERRITE BEAD 1 L1 1UH 2 VDDA/VSSA GENERATION TANT C10 10UF 25V 1 L2 VDDI/VSSI GENERATION FERRITE BEAD 1 1 C15 0.1UF GND + 1 C2 + 1 10UF 2 25V 2 TANT +5V Freescale Semiconductor, Inc... 3 2 DWG. NO. A B C +5V 4 Freescale Semiconductor, Inc. REV: D CSBOOT* VFPE16K 6B1< CS<10..0>* 6D1> 6D1<> T2CLK TPU<15..0> MISO MOSI SCK PCS0/SS* 4 +5V GND 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 TPU<8> TPU<9> TPU<10> TPU<11> TPU<12> TPU<13> TPU<14> TPU<15> CS<10>* CS<9>* CS<8>* CS<7>* CS<6>* CS<5>* CS<4>* CS<3>* CS<2>* CS<1>* CS<0>* 11 13 15 17 19 21 23 25 TPU<0> TPU<1> TPU<2> TPU<3> TPU<4> TPU<5> TPU<6> TPU<7> 1 3 5 7 9 A N A L O G # 1 GND1 GND1 GND1 GND1 GND1 GND1 GND1 GND1 GND2 GND2 GND2 GND2 GND2 3 RN P50L-080S-BS-TGF GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND CS10 GND CS9 GND CS8 GND CS7 GND CS6 GND CS5 GND CS4 GND CS3 GND CSE/2 GND CSM/1 GND CS0 CSBOOT GND VDD VPP1 I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O A N A# L2 O G P1 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 12 14 16 18 20 22 24 26 2 4 6 8 10 GND MAPI BUS P1 GND GND VSSA +5V GND GND 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 9 11 13 15 17 19 21 23 1 3 5 7 A N A L O G # 4 I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 10 12 14 16 18 20 22 24 2 4 6 8 GND +5V VSSA PADB<0> PADB<1> PADB<2> PADB<3> PADB<4> PADB<5> PADB<6> PADB<7> AN<5> AN<6> AN<7> 6D1> 6C4> 6A1< CLKOUT MAPI-EXTAL GEDABV: MPBF333B GEDTTL: BOARD 2 1 A REV: SHEET 4 OF 8 63ASE90379W DWG. NO. LAST_MODIFIED=Wed Jun 22 15:37:09 1994 A C D A A SIZE 6D1< 6D1< FREEZE TSC BKPT* 6C4< 6C4<> BERR* 6C4<> 6D1<> RESET* 6D1> DSI HALT* 6C1< DSO 6B1> 3B1< 5B1> 6C1< VSTBY PADB<7..0> AN<7..0> 1 63ASE90379W MODULAR ACTIVE PROBE INTERCONNECT P1 & P3 RN P50L-080S-BS-TGF GND I/O I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND I/O GND VSTBY GND DSO GND DSI GND HALT GND RESET GND BERR GND BKPT GND TSC GND GND FREEZE GND GND GND EXTAL GND CLKOUT GND GND VDD VDD GND4 GND4 GND4 GND4 GND4 GND4 GND4 GND4 GND3 GND3 GND3 GND3 A N A# L3 O G P3 MAPI BUS P3 Freescale Semiconductor, Inc... 3 2 DWG. NO. A B 7C4< 6B4< For More Information On This Product, Go to: www.freescale.com C 6C4<> 7C4< 6B4<> 7B4< 6B4<> 7B4< 6B4<> 7B4< 6B4<> 7C4< 4 Freescale Semiconductor, Inc. REV: D DSACK0* DSACK1* AVEC* RMC* DS* AS* SIZ0 SIZ1 6D4<> 6D4<> 6D4<> 6D4<> 6D4<> 6D4<> 6D4<> 6C4<> For More Information On This Product, Go to: www.freescale.com MODCLK IRQ<7..1>* 6D4<> 7C4< 6D4<> 7B1< 4 45 47 49 51 53 55 57 59 IRQ<1>* IRQ<2>* IRQ<3>* IRQ<4>* IRQ<5>* IRQ<6>* IRQ<7>* GND 23 25 27 29 31 33 35 37 39 41 43 1 3 5 7 9 11 13 15 17 19 21 A<0> D<1> D<3> D<5> D<7> D<8> D<10> D<12> D<14> +5V GND GND GND GND GND GND GND VPP4 GND GND GND GND GND GND GND GND GND GND GND VDD D0 D2 D4 D6 GND D9 D11 D13 D15 GND 3 RN P50L-060S-BS-TGF I/O I/O I/O I/O I/O I/O I/O VDD A0 DSACK0 DSACK1 AVEC RMC DS AS SIZ0 SIZ1 R/W MODCLK VDD GND D1 D3 D5 D7 D8 D10 D12 D14 GND P4 46 48 50 52 54 56 58 60 24 26 28 30 32 34 36 38 40 42 44 2 4 6 8 10 12 14 16 18 20 22 GND NC D<9> D<11> D<13> D<15> D<0> D<2> D<4> D<6> +5V MAPI BUS P4 NC VSSA GND GND A<1> A<3> A<5> A<7> A<9> A<10> A<12> A<14> A<16> A<18> 45 47 49 51 53 55 57 59 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 1 3 5 7 9 11 13 A N A L O G # 3 A N A L O G # 2 I/O I/O I/O I/O I/O I/O I/O I/O GND VDD GND A2 A4 A6 A8 GND A11 A13 A15 A17 GND VDD GND I/O I/O I/O I/O I/O I/O I/O 46 48 50 52 54 56 58 60 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 2 4 6 8 10 12 14 GND VSSA AN<4> AN<0> AN<1> AN<2> AN<3> A<11> A<13> A<15> A<17> A<2> A<4> A<6> A<8> RXD TXD PCS3* PCS2* PCS1* GEDABV: MPBF333B GEDTTL: BOARD 2 1 A REV: SHEET 5 OF 8 63ASE90379W DWG. NO. LAST_MODIFIED=Wed Jun 22 15:37:12 1994 A C D A A SIZE 6B1< 3B4< VFPE48K 3B4< MAPI-VRH 3B1< 4C1> 6C1< 6A4< 7B4< 6B4<> 7B4< 6B4<> 7B4< 6B4<> 7B4< 6B4<> 7B4< MAPI-VRL AN<7..0> 1 63ASE90379W MODULAR ACTIVE PROBE INTERCONNECT P2 & P4 RN P50L-060S-BS-TGF GND3 GND3 GND3 GND3 GND3 GND3 GND3 GND3 GND VPP2 GND A1 A3 A5 A7 A9 A10 A12 A14 A16 A18 VPP3 GND GND2 GND2 GND2 GND2 GND2 GND2 GND2 P2 +5V MAPI BUS P2 Freescale Semiconductor, Inc... 3 2 DWG. NO. A B C R/W* D<15..0> 6D4<> 6C4> A<18..0> 7D1> 6D1> 4 Freescale Semiconductor, Inc. REV: D For More Information On This Product, Go to: www.freescale.com 4C4<> 7C4< 4C4<> 7B4< 4C4<> 7B4< 4D4<> 7B4< 5C1<> 7B4< 5C1<> 7B4< 5C1<> 7B4< 5C1<> 7B4< 5C1> 4B4> 4C4<> 7C4< RXD TXD PCS3* PCS2* PCS1* PCS0/SS* SCK MOSI MISO T2CLK TPU<15..0> RESET* HALT* BERR* CLKOUT R/W* SIZ1 SIZ0 AS* DS* RMC* AVEC* DSACK1* DSACK0* IRQ<7..1>* MODCLK D<15..0> 4 2 1UH L3 1 VSSI C54 1 X.XUF C64 1 0.1UF VSSI 2 2 XFC VSSI 19 99 145 63 66 61 7 156 157 158 159 3 4 5 6 155 154 153 152 149 148 147 146 143 142 141 140 137 136 135 134 133 83 68 72 71 70 93 92 89 88 87 86 85 84 82 79 78 77 76 75 74 73 M O D U L E VSSI VSSI VSSI VDDSYN XFC VSSI RXD MISO /PQS0 MOSI /PQS1 SCK /PQS2 PCS0*/SS*/PQS3 PCS1* /PQS4 PCS2* /PQS5 PCS3* /PQS6 TXD /PQS7 TPUCH0 TPUCH1 TPUCH2 TPUCH3 TPUCH4 TPUCH5 TPUCH6 TPUCH7 TPUCH8 TPUCH9 TPUCH10 TPUCH11 TPUCH12 TPUCH13 TPUCH14 TPUCH15 T2CLK T P U DSACK0*/PE0 DSACK1*/PE1 AVEC* /PE2 RMC* /PE3 DS* /PE4 AS* /PE5 SIZ0 /PE6 SIZ1 /PE7 R/W* CLKOUT BERR* HALT* RESET* MC68F333 M O D U L E Q S M 3 2) THE CAP BETWEEN XFC & VSSI IS OPTIONAL. A0 A1 A2 PB0/ A3 PB1/ A4 PB2/ A5 PB3/ A6 PB4/ A7 PB5/ A8 PB6/ A9 PB7/A10 PA0/A11 PA1/A12 PA2/A13 PA3/A14 PA4/A15 PA5/A16 PA6/A17 PA7/A18 VDDI VDDE VDDE VDDE VDDE VDDE VDDE VDDE M O D U L E A D C VSSE VSSE VSSE VSSE VSSE VSSE VSSE VSSE VSSE VSSE VSSE VSSE VSSE VSSE XTAL EXTAL VFPE48K VFPE16K PADB0 PADB1 PADB2 PADB3 PADB4 PADB5 PADB6 PADB7 VSSA VDDA VRH VRL PADA0/AN0 PADA1/AN1 PADA2/AN2 PADA3/AN3 PADA4/AN4 PADA5/AN5 PADA6/AN6 PADA7/AN7 VSTBY IFETCH*/DSI IPIPE*/DSO DSCLK/BKPT FREEZE TSC CSBOOT* BR*/ CS0* BG*/ CSM* BGACK*/ CSE* PC0/FC0/ CS3* PC1/FC1/ ---PC2/FC2/ CS5* PC3/A19/ CS6* PC4/A20/ CS7* PC5/A21/ CS8* PC6/A22/ CS9* E/A23/CS10* SCIM INTERFACE MODCLK/PF0 IRQ1* /PF1 IRQ2* /PF2 IRQ3* /PF3 IRQ4* /PF4 IRQ5* /PF5 IRQ6* /PF6 IRQ7* /PF7 D0 /PH0 D1 /PH1 D2 /PH2 D3 /PH3 D4 /PH4 D5 /PH5 D6 /PH6 D7 /PH7 D8 /PG0 D9 /PG1 D10/PG2 D11/PG3 D12/PG4 D13/PG5 D14/PG6 D15/PG7 FOR THE AMP SOCKET U1 +5V XTALOSC GND GEDABV: MPBF333B GEDTTL: BOARD MCU & CLOCK 2 W1 SMT-SO 2 4A1> 5B1> 4A4> 4C1< 7B4< 4C1> 5B1> 3B4> 3B4> 4B4< 4B1<> 4B1< 4B1> 4A1< 4B1> 4B1> 4B4< 5D4< 7D1> 8 OR 14 PIN CANS / DIPS. 14 PIN DIP SOCKET FOR MAPI-EXTAL VFPE16K VFPE48K PADB<7..0> VRL VRH AN<7..0> VSTBY TSC FREEZE BKPT* DSO DSI CSBOOT* CS<10..0>* A<18..0> 1 A REV: SHEET 6 OF 8 63ASE90379W DWG. NO. 8 OUT14 11 OUT8 Y1 LAST_MODIFIED=Wed Jun 22 15:37:15 1994 A GND 1 0.1UF C68 2 1 0.1UF C57 2 MCUEXTAL 3 1 VSSA PADB<0> PADB<1> PADB<2> PADB<3> PADB<4> PADB<5> PADB<6> PADB<7> AN<0> AN<1> AN<2> AN<3> AN<4> AN<5> AN<6> AN<7> SIZE GND 160 151 139 128 121 110 105 90 80 69 54 43 30 14 62 NC 64 51 132 45 46 47 48 49 50 52 53 32 31 38 37 33 34 35 36 39 40 41 42 2 57 56 58 60 59 VDDA CS<0>* CS<1>* CS<2>* CS<3>* CS<4>* CS<5>* CS<6>* CS<7>* CS<8>* CS<9>* CS<10>* 117 118 119 122 123 124 125 126 129 130 131 116 A<0> A<1> A<2> A<3> A<4> A<5> A<6> A<7> A<8> A<9> A<10> A<11> A<12> A<13> A<14> A<15> A<16> A<17> A<18> VDDI 94 8 9 10 11 12 15 16 17 18 20 21 22 23 24 25 26 27 28 144 13 44 67 91 111 127 150 C D A A VSSI TANT + 1 C62 1UF 2 25V C59 2 0.1UF 1 TPU<0> TPU<1> TPU<2> TPU<3> TPU<4> TPU<5> TPU<6> TPU<7> TPU<8> TPU<9> TPU<10> TPU<11> TPU<12> TPU<13> TPU<14> TPU<15> VDDSYN 33 1 <1>* <2>* <3>* <4>* <5>* <6>* <7>* 115 114 113 112 109 108 107 106 104 103 102 101 98 97 96 95 VDDI VDDE VDDE VDDE VDDE VDDE VDDE VDDE 1 63ASE90379W NOTE: 1) PLACE THE CAP BETWEEN VDDSYN & XFC AS CLOSE TO MCU PINS AS POSSIBLE. VDDI 2 R2 IRQ IRQ IRQ IRQ IRQ IRQ IRQ D<0> D<1> D<2> D<3> D<4> D<5> D<6> D<7> D<8> D<9> D<10> D<11> D<12> D<13> D<14> D<15> 65 1 29 55 81 100 120 138 VDDI +5V Freescale Semiconductor, Inc... 3 2 DWG. NO. A B C 5C4<> 5B4<> 7C4< 5B4<> 7B1< 5C4<> 5C4<> 5C4<> 5C4<> 5C4<> 5C4<> 5C4<> 5C4<> 5C4< 4A1< 4B1> 4B1<> 4B1<> 4 Freescale Semiconductor, Inc. REV: D For More Information On This Product, Go to: www.freescale.com 6B1> MISO 4C4<> 6B4<> 4C4<> 6B4<> 4C4<> 6B4<> 4D4<> 6B4<> 5C1<> 6B4<> 5C1<> 6B4<> 5C1<> 6B4<> 5C1<> 6B4<> 5C1> PADB<7..0> RXD TXD PCS3* PCS2* PCS1* PCS0/SS* SCK MOSI T2CLK TPU<15..0> 4B4> 4C4<> 6C4<> MODCLK 4 8 7 6 5 4 3 2 1 12 11 10 9 8 7 6 5 14 15 2 1 3 4 5 6 1 2 8 14 15 11 12 13 1 2 RN2 1M RN3 1M RN1 1M R1 220K 16 9 10 11 12 13 14 15 16 1 2 3 15 14 13 4 16 13 12 11 10 9 7 8 16 7 10 6 9 5 4 3 +5V +5V +5V +5V GND <12> <11> <10> <9> <8> <7> <6> IRQ<1>* IRQ<2>* IRQ<3>* IRQ<4>* IRQ<5>* IRQ<6>* IRQ<7>* TPU<5> TPU<4> TPU<3> TPU<2> TPU<1> TPU<0> TPU TPU TPU TPU TPU TPU TPU A<3> A<4> A<5> A<6> A<7> A<9> A<10> 2 A<8> R3 220K R4 220K R5 220K 1 1 1 IRQ<7..1>* A<18..0> GEDABV: MPBF333B GEDTTL: BOARD 2 1 A REV: SHEET 7 OF 8 63ASE90379W DWG. NO. LAST_MODIFIED=Wed Jun 22 15:37:17 1994 A 5B4<> 6D4<> 5D4< 6D1> C D A A SIZE PULL-UPS / PULL-DOWNS / PERSONALITY ID 2 2 A<2> A<1> +5V 1 63ASE90379W 3 PADB<0> PADB<1> PADB<2> PADB<3> PADB<4> PADB<5> PADB<6> PADB<7> NC NC NC NC TPU<13> TPU<14> TPU<15> NC NC NC NC NC NC NC NC RN4 220K MC68HCF333 MCU PERSONALITY CODE = 083HEX (USING A<10..1>) Freescale Semiconductor, Inc... 3 2 DWG. NO. A B C 5B4<> 6D4<> 4 Freescale Semiconductor, Inc. REV: D For More Information On This Product, Go to: www.freescale.com 4 A <18..0> AN <7..0> AS * AVEC * BERR * BKPT * CLKOUT CS <10..0> * CSBOOT * D <15..0> DS * DSACK0 * DSACK1 * DSI DSO FREEZE HALT * IRQ <7..1> * MAPI-EXTAL MAPI-VRH MAPI-VRL MISO MODCLK MOSI PADB <7..0> PCS0/SS * PCS1 * PCS2 * PCS3 * R/W * RESET * RMC * RXD SCK SIZ0 SIZ1 T2CLK TPU <15..0> TSC TXD VFPE16K VFPE48K VRH VRL VSTBY 2 1 A REV: SHEET 8 OF 8 63ASE90379W DWG. NO. LAST_MODIFIED=Wed Jun 22 14:53:16 1994 GEDABV: MPBF333B GEDTTL: BOARD C D A A A SIZE SIGNAL CROSS REFERENCES 1 63ASE90379W 3 5D4< 6D1> 7D1> 3B1< 4C1> 5B1> 6C1< 5C4<> 6D4<> 5C4<> 6D4<> 4B1> 6C4< 4B1> 6D1< 4A1< 6C4> 4B4< 6D1<> 4B4< 6D1> 5C4<> 6D4<> 5C4<> 6D4<> 5C4<> 6D4<> 5C4<> 6D4<> 4B1<> 6D1<> 4B1< 6D1> 4A1< 6D1> 4B1<> 6C4<> 5B4<> 6D4<> 7B1< 4A1> 6A1< 3B4< 5B1> 3B4< 5B1> 4C4<> 6B4<> 7C4< 5B4<> 6D4<> 7C4< 4C4<> 6B4<> 7B4< 4C1< 6B1> 7B4< 4D4<> 6B4<> 7B4< 5C1<> 6B4<> 7B4< 5C1<> 6B4<> 7B4< 5C1<> 6B4<> 7B4< 5C4< 6C4> 4B1<> 6C4<> 5C4<> 6D4<> 5C1> 6A4< 7B4< 4C4<> 6B4<> 7B4< 5C4<> 6D4<> 5C4<> 6C4<> 4B4> 6B4< 7C4< 4C4<> 6C4<> 7C4< 4B1> 6D1< 5C1<> 6B4<> 7B4< 4A4> 6B1< 5B1> 6B1< 3B4> 6B1< 3B4> 6B1< 4B1> 6C1< *** Signal Cross-Reference *** --- for the entire design -- Freescale Semiconductor, Inc... 3 2 DWG. NO. A B C 4 Freescale Semiconductor, Inc. REV: Freescale Semiconductor, Inc. Freescale Semiconductor, Inc... SCHEMATIC DIAGRAMS 6-10 For More Information On This Product, Go to: www.freescale.com M68MPB333UM/D