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V1.7
Hardware Reference
ActivePRO POD Renesas R8C/3x Ordering code
IC30620
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.
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_ Hardware Reference
ActivePRO POD General Notes ActivePRO PODs can be used connected to the iC3000 Emulator through the ActivePRO interface. A green LED is lit when the ActivePRO 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 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 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.
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).
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.
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_ Hardware Reference
ActivePRO POD Renesas R8C/3x
Ordering code IC30620A IC30620 Max. CPU Frequency Trace Depth Time Stamp Resolution Time Stamp Reach
Description ActivePRO POD Renesas R8C/3x incl.iCard ActivePRO POD Renesas R8C/3x 20 MHz 512k Frames 10ns Unlimited
The Renesas R8C/3x ActivePRO POD connects to the iC3000 HS/GT Emulator unit through the Active PRO/GT interface iCARD. Supported CPUs R8C/32A,R8C/32C, R8C/32D, R8C/32M R8C/33A, R8C/33C, R8C/33D, R8C/33M R8C/35A, R8C/35C, R8C/35D, R8C/35M R8C/34E, R8C/34F, R8C/34G, R8C/34H, R8C/34W, R8C/34X, R8C/34Y, R8C/34Z, R8C/34P, R8C/34R R8C/36E, R8C/36F, R8C/36G, R8C/36H, R8C/36W, R8C/36X, R8C/36Y, R8C/36Z R8C/38E, R8C/38F, R8C/38G, R8C/38H, R8C/38W, R8C/38X, R8C/38Y, R8C/38Z R8C/32G, R8C/32H
The Renesas R8C/3x ActivePRO POD can run in standalone mode without any CPU Adapter board or target adapter connected. In order to connect to the target CPU, appropriate CPU adapter board and target adapter parts must be used. Consult with iSYSTEM sales representative to obtain the correct CPU Adapter board and the target adapter parts for your target CPU. Note: Per default, the POD is not shipped with any CPU adapter board and thus cannot be connected to the target without ordering one.
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CPU Adapter Boards CPU Adapter Board
Ordering Code
CPU Adapter Board R8C/32A/C/D/M (20Pin)
IC30620-32A
CPU Adapter Board R8C/32G/H (20Pin)
IC30620-32G
CPU Adapter Board R8C/33A/C/D/M (32Pin)
IC30620-33A
CPU Adapter Board R8C/34E/F/G/H/W/X/Y/Z/P/R (48Pin)
IC30620-34E
CPU Adapter Board R8C/35A/C/D/M (52Pin)
IC30620-35A
CPU Adapter Board R8C/36E/F/G/H/W/X/Y/Z (64Pin)
IC30620-36E
CPU Adapter Board R8C/38E/F/G/W/X/Y/Z (80Pin)
IC30620-38E
For instance, for R8C/36E derivate in the QFP64 package, IC30620-36E, IA64ATQ-WIRE and IA64ATQSOLDER parts are required to connect the POD to the target.
IC30620-32A: 20-pin CPU Adapter Board with DIP20 POD target layout - Bottom View
IC30620-32G: 20-pin CPU Adapter Board with DIP20 POD target layout –Left top and right bottom view
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IC30620-33A: 32-pin CPU Adapter Board with T_QFP32 POD target layout – Bottom view
IC30620-34E: 48-pin CPU Adapter Board with T_QFP48A POD target layout
IC30620-35A: 52-pin CPU Adapter Board with T_QFP52 POD target layout - Bottom View
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IC30620-36E: 64-pin CPU Adapter Board with T_QFP64 POD target layout – Bottom View
IC30620-38E: 80-pin CPU Adapter Board with T_QFP80 POD target layout – Bottom View
POD Target Layout DIP20 POD target layout: 1 2 3 4 5 6 7 8 9 10
20 19 18 17 16 15 14 13 12 11
20 19 18 17 16 15 14 13 12 11
1 2 3 4 5 6 7 8 9 10
DIP20 View from the target side on the left and a view from the POD side on the right
T_QFP32 POD target layout:
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16 14 12 10 15 13 11 9
18 17
7
8
20 19
5
6
22 21
3
4
24 23
1
2
25 27 29 31 26 28 30 32
T_QFP32 – 32-pin CPU Adapter Board Top View
T_QFP32 Dimensions – 32-pin CPU Adapter Board Top View
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T_QFP48A POD target layout:
48 46 44 42 40 38 47 45 43 41 39 37
2
1
35 36
4
3
33 34
6
5
31 32
8
7
29 30
10 9
27 28
12 11
25 26
13 15 17 19 21 23 14 16 18 20 22 24
T_QFP48A – 48-pin CPU Adapter Board Top View
T_QFP48A Dimensions – 48-pin CPU Adapter Board Top View
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T_QFP52 POD target layout:
52 50 48 46 44 42 51 49 47 45 43 41
2 4 6 8 10 12 14
1 3 5 7 9 11 13
39 37 35 33 31 29 27
40 38 36 34 32 30 28
15 17 19 21 23 25 16 18 20 22 24 26 T_QFP52 – 52-pin CPU Adapter Board Top View
T_QFP52 Dimensions – 52-pin CPU Adapter Board Top View
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T_QFP64 POD target layout: 63 61 59 57 55 53 51 49 64 62 60 58 56 54 52 50
1 3 5 7 9 11 13 15
2 4 6 8 10 12 14 16
48 46 44 42 40 38 36 34
47 45 43 41 39 37 35 33
18 20 22 24 26 28 30 32 17 19 21 23 25 27 29 31 T_QFP64 – 64-pin CPU Adapter Board Top View
T_QFP64 Dimensions – 64-pin CPU Adapter Board Top View
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T_QFP80 POD target layout: 80 78 76 74 72 70 68 66 64 62 79 77 75 73 71 69 67 65 63 61
2 4 6 8 10 12 14 16 18 20
1 3 5 7 9 11 13 15 17 19
59 57 55 53 51 49 47 45 43 41
60 58 56 54 52 50 48 46 44 42
21 23 25 27 29 31 33 35 37 39 22 24 26 28 30 32 34 36 38 40 T_QFP80 – 80-pin CPU Adapter Board Top View
T_QFP80 Dimensions – 80-pin CPU Adapter Board Top View
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Installing or exchanging the CPU Adapter Board The POD may come with an adapter board assembled already (check if it fits for your target CPU) or without it. When it's necessary to exchange the existing adapter board or when the adapter board needs to be installed for the first time, follow the instructions:
1) Remove four M3 screws, one at each column as depicted in the picture - location A. 2) Loosen eight M3 screws (one turn should be enough), two at each column as depicted in the picture location B. 3) Slowly and carefully remove part of the housing (C) covering the existing adapter board (E). 4) Remove four M2.5 screws (location D) from the existing adapter board. 5) If the POD comes already with one adapter board populated, gently pull-down the existing adapter board (E) and put back the new one. If there is no adapter board connected to the POD, connect the new adapter board to the two provided connectors. Make sure a good connection is established between the POD and the new adapter board. Now, re-assemble the POD back in the opposite order. 6) Fasten the adapter board (E) with four M2.5 screws (D). 7) Carefully put back the housing cover and check the alignment to the POD. 8) Put back the four M3 screws at location A. Be careful not to use excessive force when tightening the screws! In worst case, the thread can be ruined. 9) Finally, gently tighten back the eight screws at position B. Now the POD is ready to be used. Note that the adapter board and the ActivePRO POD are delicate, static sensitive pieces of equipment, therefore all measures should be taken to prevent static discharge onto the POD and to prevent physical damage.
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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 devastating current, which could flow between the POD and the target ground if the target and the POD ground potentials would not be equal at the time when the POD gets physically connected to the target.
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Notes:
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.
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