_ V1.3 POD Hardware Reference MPC564xB ActiveGT POD Ordering code IC30762 Thank you for purchasing this product from isystem. This product has been carefully crafted to satisfy your needs. Should any questions arise, do not hesitate to contact your local distributor or isystem directly. Our technical support personnel will be happy to answer all your technical support questions. All information, including contact information, is available on our web site www.isystem.com. Feel free also to explore our alternative products. isystem constantly yields for development and therefore certain pictures in this documentation may vary slightly from the actual product you received. The differences should be minor, but should you find more serious inconsistencies of the product with the documentation, please contact your local distributor for more information. This document and all documents accompanying it are copyrighted by isystem and all rights are reserved. Duplication of these documents is allowed for personal use. For every other case a written consent from isystem is required. Copyright 2014 isystem, AG. All rights reserved. All trademarks are property of their respective owners. www.isystem.com isystem, September 2014 1/10
_ POD Hardware Reference In-Circuit Emulation PODs ActiveGT PODs can be used connected to the ic3000 HS/GT Emulator through the ActivePRO/GT interface icard. A green LED is lit when the ActiveGT POD is powered on. PIN1 location on every component is also marked on the circuit board with a square block (PIN 1 pin is soldered a square block, other pins have a round pin). AUX Inputs The POD has a special interface for an additional ActivePRO/GT AUX card (IC30338), which provides 16 AUX auxiliary inputs. Signals connected to these inputs are either sampled with the trace cycle or on the signal edge change. Inputs are divided into two identical blocks with 8 inputs each. Every block has an adjustable input threshold from 0 to 3V. Inputs are 5V tolerant. For more information see the hardware reference for the ActivePRO/GT AUX Card. Trigger Output A trigger output, signaling trace trigger event, is available on the hardware via a coax SMA connector. For instance, an external logic analyzer can be connected to this connector. Trace trigger event is indicated as a negative edge on the coax SMA connector. The signal returns to a high level (3,3V) on the next trace activation. Final Target Application Test After the application is being more or less debugged and final application test is performed, it is recommended to remove all breakpoints and to close all debug windows (memory, SFR, watch...) to eliminate any possible influence of the emulator on the CPU execution. There were cases where the target application has been behaving differently with the target CPU inserted or the POD connected. If the debugger is configured to update some debug windows in real-time, the user may not be aware of that the CPU execution may be slightly disturbed. However, when the monitor access type is configured to update debug windows while the CPU is running, the CPU execution is disturbed significantly, depending on the necessary number of memory accesses to update opened debug windows. There are cases when internal peripheral device requires read access of the particular register during the device configuration. The user has had SFR window opened and the necessary read access was actually performed by the debugger and not by the application as it would be correct. Therefore, the application was working fine with the emulator, but a standalone application didn't work correctly, as the peripheral device was not configured properly. Temperature range All isystem devices, unless explicitly otherwise noted, are specified to operate at room temperatures (specifically, between 10 C/50 F and 40 C/105 F). isystem, September 2014 2/10
_ POD Hardware Reference MPC564xB ActiveGT POD Ordering code POD Speed (MHz) Exchange CPU Trace Depth IC30762 Max. CPU Clock (120MHz) NO 64M Frames Before connecting the PODs, make sure you read the technical notes on the Freescale PowerArchitecture 56xx and ST SPC56 family. This POD is based on Freescale MPC5646C in the BGA256 package, which supports the following microcontrollers: MPC5644B, MPC5644C, MPC5645B, MPC5645C, MPC5646B, MPC5646C SPC564B64, SPC56EC64, SPC564B70, SPC56EC70, SPC564B74, SPC56EC74 Freescale ST Check with isystem for the latest list of supported devices. Power Supply The POD can be powered either from the target or from the emulator ( Hardware/Emulation Options/Vcc/Clock tab. From the emulator, it s always powered with 5V while from the target it can be powered either with 3.3V or 5V (depending on the target power supply). Clock Two jumpers J1 and J2 are available on the bottom side of the POD configuring the clock selection. When both jumpers are in 1-2 position, clock to the POD is supplied either by the target or by the emulator (recommended selection) depending on the selection in the Hardware/Emulation Options/Vcc/Clock tab. Due to the adapter, which is used to connect the POD to the target, an impedance of the clock EXTAL and XTAL lines is significantly changed and may prevent crystal in the target to oscillate. Therefore it is advised to use target clock only when an oscillator is used in the target. isystem, September 2014 3/10
However, when it s mandatory to use a crystal based clock from the target, which doesn t oscillate in conjunction with the ActiveGT POD, it is possible to build a custom crystal circuit on the POD. In this case, jumpers J1 and J2 must be set in 2-3 position (clock setting in winidea has no meaning then). Next, the POD needs to be disassembled partly in order to get to the PCB layout, where custom oscillation circuit can be built. Consult with isystem technical support for instructions on POD disassembly when such a requirement arises. Crystal circuit on the POD Crystal circuit PCB layout located on the bottom side of the CPU Module Emulation Notes Microcontroller reset line is bidirectional, open-drain type. For proper POD operation, pull-up resistor on the reset line is required. 10k pull-up resistor is connected to the reset line on the POD side. Make sure that there is no pull-down resistor (pull-up is allowed) in the target since it would conflict with the POD s pull-up. Pinout Adapters Per default POD comes with a T_QFP208 pinout. An additional converter board exists, converting the T_QFP208 to the T_QFP176 pinout. Such converter must be used to adapt the POD to the QFP176 target pinout. T_QFP208 -> T_QFP176 converter features two jumpers designated as J1 and J2. Per default the jumpers are not set. When the jumper J1 is set, the CPU port TPI9 is connected to the pin 109 of the QFP176 package and when the jumper J2 is set, the CPU port TPI10 is connected to the pin 110 of the QFP176 package. When emulating target device in the QFP176, check you particular device if it has TPI9 and TPI10 on pin 109 and pin 110. If yes, then set jumpers J1 and J2, otherwise keep them off. isystem, September 2014 4/10
T_QFP208 -> T_QFP176 converter (top view on the left and bottom view on the right) Target POD Layout Below two pictures depict top and bottom POD view, which are important to read the target POD pinouts properly. isystem, September 2014 5/10
The POD target layout is T_BGA208. 162 164 166 168 170 172 174 176 178 180 182 184 186 188 190 192 194 196 198 200 161 163 165 167 169 171 173 175 177 179 181 183 185 187 189 191 193 195 197 199 160 159 158 157 1 2 156 155 3 4 154 153 5 6 152 151 7 8 150 149 9 10 148 147 11 12 146 145 13 14 144 143 15 16 142 141 17 18 140 139 19 20 138 137 21 22 136 135 23 24 134 133 25 26 132 131 27 28 130 129 29 30 128 127 31 32 126 125 33 34 124 123 35 36 122 121 37 38 120 119 39 40 118 117 41 42 116 115 43 44 114 113 45 46 112 111 47 48 110 109 49 50 108 107 51 52 106 105 53 54 104 103 55 56 102 101 57 58 99 97 95 93 91 89 87 85 83 81 79 77 75 73 71 69 67 65 63 61 59 60 100 98 96 94 92 90 88 86 84 82 80 78 76 74 72 70 68 66 64 62 T_BGA208 Bottom POD view 200 198 196 194 192 190 188 186 184 182 180 178 176 174 172 170 168 166 164 162 199 197 195 193 191 189 187 185 183 181 179 177 175 173 171 169 167 165 163 161 159 160 2 1 157 158 4 3 155 156 6 5 153 154 8 7 151 152 10 9 149 150 12 11 147 148 14 13 145 146 16 15 143 144 18 17 141 142 20 19 139 140 22 21 137 138 24 23 135 136 26 25 133 134 28 27 131 132 30 29 129 130 32 31 127 128 34 33 125 126 36 35 123 124 38 37 121 122 40 39 119 120 42 41 117 118 44 43 115 116 46 45 113 114 48 47 111 112 50 49 109 110 52 51 107 108 54 53 105 106 56 55 103 104 58 57 101 102 60 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 93 95 97 99 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 100 T_BGA208 Top POD view isystem, September 2014 6/10
T_BGA208 Dimensions The T_QFP176 converter target layout is T_QFP176: n.c. 176 174 172 170 168 166 164 162 160 158 156 154 152 150 148 146 144 142 n.c. n.c. 175 173 171 169 167 165 163 161 159 157 155 153 151 149 147 145 143 141 n.c. 2 1 139 140 4 3 137 138 6 5 135 136 8 7 133 134 10 9 131 132 12 11 129 130 14 13 127 128 16 15 122 123 18 17 120 121 20 19 118 119 22 21 116 117 24 23 114 115 26 25 112 113 47 28 110 111 30 29 108 109 32 31 106 107 34 33 125 124 36 35 105 126 38 37 103 104 40 39 101 102 42 41 99 100 44 43 97 98 46 45 95 96 48 27 93 94 50 49 91 92 52 51 89 90 n.c. 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 n.c. n.c. 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 n.c. T_QFP176 Top POD view isystem, September 2014 7/10
n.c. 142 144 146 148 150 152 154 156 158 160 162 164 166 168 170 172 174 176 n.c. n.c. 141 143 145 147 149 151 153 155 157 159 161 163 165 167 169 171 173 175 n.c. 140139 138137 136135 1 2 134133 3 4 132131 5 6 130129 7 8 128127 9 10 123122 11 12 121120 13 14 119118 15 16 117116 17 18 115114 19 20 113112 21 22 111110 23 24 109108 25 26 107106 28 47 124125 29 30 126105 31 32 104103 33 34 102101 35 36 100 99 37 38 98 97 39 40 96 95 41 42 94 93 43 44 92 91 45 46 90 89 27 48 49 50 51 52 n.c. 87 85 83 81 79 77 75 73 71 69 67 65 63 61 59 57 55 53 n.c. n.c. 88 86 84 82 80 78 76 74 72 70 68 66 64 62 60 58 56 54 n.c. T_QFP176 Bottom POD view The connectors used for target POD pinout are female Tyco Electronics connectors, part number 0-0104652-4 (40 pin) and 0-0104652-6 (60 pin). isystem, September 2014 8/10
Measurement Boards Measurement boards can be ordered separately, which deliver all the microcontroller pins to the external connectors, where all CPU signals can be measured and inspected. Description Measurement Board MPC5607B (176-Pin) Ordering Code IAMMPC5607B-QFP176 The T_QFP176 Measurement Board The POD with the T_QFP176 Measurement Board attached Connect the 176-pin Measurement Board via the T_QFP208 -> T_QFP176 Converter (which comes with the POD) to the POD. The QFP176 target adapter then connects to the bottom side of the measurement board instead to the T_QFP208 -> T_QFP176 Converter. This is the same measurement board which can be used with the MPC560xB ActiveGT POD. Note: Pay attention to pin 1. Be gentle when removing the Measurement Board from the POD otherwise connectors can be damaged. isystem, September 2014 9/10
Important It is highly recommended to use a ground wire delivered beside the ic3000 (HS/GT) unit to connect the ic3000 GND and the target GND before connecting the POD to the target. This measure protects the POD s sensitive logic against the harmful current, which can flow between the POD and the target ground if the target and the POD ground potentials are not equal at the time when the POD is physically connected to the target. Disclaimer: isystem assumes no responsibility for any errors which may appear in this document, reserves the right to change devices or specifications detailed herein at any time without notice, and does not make any commitment to update the information herein. isystem. All rights reserved. isystem, September 2014 10/10