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User’s Manual SH-2A, SH-2 E200F Emulator Additional Document for User’s Manual Supplementary Information on Using the SH7083, SH7084, SH7085, SH7086, SH7146, SH7149, SH7124, and SH7125 Renesas Microcomputer Development Environment System SuperH™ Family / SH7080 Series / SH7146 Series / SH/Tiny Series E200F for SH7080 R0E570800EMU00E Rev.5.00 2009.
Rev. 5.00 Aug.
Notes regarding these materials 1. This document is provided for reference purposes only so that Renesas customers may select the appropriate Renesas products for their use. Renesas neither makes warranties or representations with respect to the accuracy or completeness of the information contained in this document nor grants any license to any intellectual property rights or any other rights of Renesas or any third party with respect to the information in this document. 2.
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Contents Section 1 System Configuration ........................................................................1 1.1 1.2 Components of the Emulator ............................................................................................ 1 System Configuration ....................................................................................................... 8 Section 2 Connecting the Emulator to the User System ....................................11 2.1 2.2 2.3 2.4 2.
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Section 1 System Configuration Section 1 System Configuration 1.
Section 1 System Configuration Table 1.1 Components of the Emulator Classification Component Hardware Emulator main unit AC adapter Appearance Quantity 1 Remarks R0E0200F1EMU00: Depth: 195.0 mm, Width: 130.0 mm, Height: 45.0 mm, Mass: 490.0 g Product numbers: 0001 to 0113 1 Input: 100 to 240 V Output: 12 V 4.0 A Depth: 120.0 mm, Width: 72.0 mm, Height: 27.0 mm, Mass: 400.0 g Product numbers: 0114 or later AC cable Rev. 5.00 Aug.
Section 1 System Configuration Table 1.1 Components of the Emulator (cont) Classification Component Hardware (cont) USB cable External probe Appearance Quantity Remarks 1 Length: 1500 mm, Mass: 50.
Section 1 System Configuration Table 1.2 Optional Components of the Emulator Classification Component Hardware Appearance Quantity Remarks Expansion profiling unit 1 R0E0200F0EPU00: Depth: 98.0 mm, Width: 115.0 mm, Height: 15.2 mm, Mass: 52 g External bus trace unit 1 R0E0200F1ETU00: Depth: 90.0 mm, Width: 125.0 mm, Height: 15.2 mm, Mass: 83 g Emulation memory unit (Memory capacity: 8 Mbytes or 16 Mbytes) 1 EV-chip unit 1 R0E0200F1MSR00 (8 Mbytes), R0E0200F1MSR01 (16 Mbytes): Depth: 90.
Section 1 System Configuration Table 1.2 Optional Components of the Emulator (cont) Classification Component Hardware (cont) Appearance Quantity Remarks SH7083 (PTQP0100KAA) user system interface board 1 R0E570830CFK00: Depth: 60.0 mm, Width: 90.0 mm, Height: 26.0 mm, Mass: 45 g SH7084 (PLQP0112JA-A) user system interface board 1 R0E570840CFJ00: Depth: 60.0 mm, Width: 90.0 mm, Height: 26.0 mm, Mass: 45 g SH7085 (PLQP0144KAA) user system interface board 1 R0E570850CFK00: Depth: 60.
Section 1 System Configuration Table 1.2 Optional Components of the Emulator (cont) Classification Component Hardware (cont) Appearance Quantity Remarks SH7146 (PLQP0080JA-A) user system interface board 1 R0E571460CFJ00: Depth: 60.0 mm, Width: 90.0 mm, Height: 26.0 mm, Mass: 45 g SH7149 (PLQP0100KBA) user system interface board 1 R0E571490CFK00: Depth: 60.0 mm, Width: 90.0 mm, Height: 26.0 mm, Mass: 45 g SH7149 (PRQP0100JEB) user system interface board 1 R0E571490CFJ00: Depth: 60.
Section 1 System Configuration Table 1.2 Optional Components of the Emulator (cont) Classification Component Hardware (cont) Appearance Quantity Remarks SH7125 (PRQP0064GBA) user system interface board 1 R0E571250CFG00: Depth: 60.0 mm, Width: 90.0 mm, Height: 26.0 mm, Mass: 45 g SH7124 (PLQP0048JA-A) user system interface board 1 R0E571240CFJ00: Depth: 60.0 mm, Width: 90.0 mm, Height: 26.0 mm, Mass: 45 g Rev. 5.00 Aug.
Section 1 System Configuration 1.2 System Configuration Figure 1.1 shows an example of the emulator system configuration. - When the EV-chip unit is not used: Expansion profiling unit High-performance Embedded Workshop H-UDI port connector E200F User system PC - When the EV-chip unit is used: Expansion profiling unit Trace cable High-performance Embedded Workshop External bus trace unit Emulation memory unit User system interface board EV-chip unit IC socket PC E200F User system Figure 1.
Section 1 System Configuration Table 1.
Section 1 System Configuration 3. The user system interface board is only used when the emulator is connected to the user system; it is not required when the emulator system operates alone. (2) System Configuration of the SH/Tiny Series and SH7146 Table 1.4 shows the system configuration supported by the SH/Tiny series (R5F71250/ R5F71251/R5F71252/R5F71253/R5F71240/R5F71241/R5F71242/R5F71243) and SH7146. Table 1.
Section 2 Connecting the Emulator to the User System Section 2 Connecting the Emulator to the User System When the emulator is connected to the user system, use the optional EV-chip unit, user system interface board, and trace cable, or install the H-UDI port connector on the user system. 2.
Section 2 Connecting the Emulator to the User System • Connect the EV-chip unit to the trace cable (CN1 side). Figure 2.2 Connecting the Trace Cable to the EV-chip Unit CAUTION Check the location of pin 1 before connecting. Rev. 5.00 Aug.
Section 2 Connecting the Emulator to the User System 2.1.2 • Connecting the E200F External Bus Trace Unit to the EV-chip Unit When the external bus trace unit is used with the EV-chip unit, connect the external bus trace unit to the EV-chip unit as shown in figure 2.3. Figure 2.3 Connecting the External Bus Trace Unit to the EV-chip Unit Rev. 5.00 Aug.
Section 2 Connecting the Emulator to the User System • After checking the location of pin 1, connect the EV-chip unit, external bus trace unit, and trace cable. Figure 2.4 Connecting the EV-chip Unit, External Bus Trace Unit, and Trace Cable CAUTION Check the location of pin 1 before connecting. Rev. 5.00 Aug.
Section 2 Connecting the Emulator to the User System 2.1.3 • Connecting the Probe Head to the EV-chip Unit Connect the probe head to the EV-chip unit as shown in figure 2.5. Figure 2.5 Connecting the Probe Head to the EV-chip Unit CAUTION Check the location of pin 1 before connecting. Rev. 5.00 Aug.
Section 2 Connecting the Emulator to the User System 2.1.4 • Connecting the E200F Emulation Memory Unit to the EV-chip Unit When the emulation memory unit is used with the EV-chip unit, connect the emulation memory unit to the EV-chip unit (figure 2.6). Figure 2.6 Connecting the Emulation Memory Unit to the EV-chip Unit Rev. 5.00 Aug.
Section 2 Connecting the Emulator to the User System • After checking the location of pin 1, connect the EV-chip unit, emulation memory unit, and trace cable. Figure 2.7 Connecting the Emulation Memory Unit, EV-chip Unit, and Trace Cable CAUTION Check the location of pin 1 before connecting. Rev. 5.00 Aug.
Section 2 Connecting the Emulator to the User System 2.1.5 Connecting the E200F External Bus Trace Unit, Emulation Memory Unit, and EVchip Unit • When the external bus trace unit is used with the emulation memory unit and EV-chip unit, as shown in figure 2.8, connect them in the positions of (a), (b), and (c) for the external bus trace unit, emulation memory unit, and EV-chip unit, respectively.
Section 2 Connecting the Emulator to the User System 2.1.6 • Connecting the EV-chip Unit to the User System Interface Board After checking the location of pin 1, connect the EV-chip unit to the user system interface board. EV-chip unit Connector No. EV-Chip Unit Connector No. User I/F Connector 1 (CN4) User I/F Connector 2 (CN5) Board Connector No. UCN1 UCN2 Board Spacer User system Figure 2.
Section 2 Connecting the Emulator to the User System 2.2 Connecting the Emulator to the User System by Using the H-UDI Port Connector When the H-UDI port connector is installed on the user system, refer to the recommended circuit between the H-UDI port connector and the MCU. It is impossible to connect the emulator to the 14-pin type connector that is recommended for the E10A-USB emulator. The 36-pin type connector is the same as that of the E10A-USB emulator.
Section 2 Connecting the Emulator to the User System 2.3 Installing the H-UDI Port Connector on the User System Table 2.2 shows the recommended H-UDI port connectors for the emulator. Table 2.2 Recommended H-UDI Port Connectors Connector Type Number Manufacturer Specifications 36-pin connector DX10M-36S Hirose Electric Co., Ltd.
Section 2 Connecting the Emulator to the User System Pin No. Signal Input/ Output*1 1 AUDCK*5 2 GND 3 AUDATA0*5 Pin No. Note Output 4 GND 5 AUDATA1*5 6 GND 7 AUDATA2 *5 8 GND 9 AUDATA3*5 10 GND _AUDSYNC 19 Output Output Output Input/ Output*1 TMS Input 20 GND 21 _TRST 22 (GND)*4 23 TDI 24 GND 25 TDO 26 GND 27 Output Signal *2 GND 29 UVCC 12 GND 30 GND 13 N.C. 31 _RES*2 14 GND 32 GND 15 11 Output *2, *5 N.C.
Section 2 Connecting the Emulator to the User System 2.5 2.5.1 Recommended Circuit between the H-UDI Port Connector and the MCU Recommended Circuit (36-Pin Type) Figure 2.11 shows a recommended circuit for connection between the H-UDI and AUD port connectors (36 pins) and the MCU when the emulator is in use. Notes: 1. Do not connect anything to the N.C. pins of the H-UDI port connector. 2. The _ASEMD pin must be 0 when the emulator is connected and 1 when the emulator is not connected, respectively.
Section 2 Connecting the Emulator to the User System Vcc = I/O power supply Vcc Vcc Vcc All pulled-up at 4.7 kΩ or more H-UDI port connector (36-pin type) 2 4 6 8 10 12 14 16 18 20 22 24 GND AUDCK GND AUDATA0 GND AUDATA1 GND AUDATA2 GND AUDATA3 GND AUDSYNC GND N.C. GND N.C.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series 3.1 Differences between the MCU and the Emulator 1. When the emulator system is initiated, it initializes the general registers and part of the control registers as shown in table 3.1. The initial values of the MCU are undefined. When the emulator is initiated from the workspace, a value to be entered is saved in a session.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series a TIMEOUT error will occur at memory access. (Some MCUs will incorporate no _BREQ or _WAIT.) 5. Direct Memory Access Controller (DMAC)/Data Transfer Controller (DTC) When the MCU incorporates a DMAC, the DMAC operates even when the emulator is used. When a data transfer request is generated, the DMAC executes DMA transfer. When the MCU incorporates a DTC, the DTC operates even when the emulator is used.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series 9. Loading Sessions Information in [JTAG clock] of the [Configuration] dialog box cannot be recovered by loading sessions. Thus the TCK value will be 2.5 MHz. 10. [IO] Window ⎯ Display and modification For each watchdog timer register, there are two registers to be separately used for write and read operations. Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series 14. Multiplexing the AUD Pins in Debugging without Connecting the EV-chip Unit When debugging is performed without connecting the EV-chip unit, the AUD pin is multiplexed as shown in table 3.5. Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series 3.2 Specific Functions for the Emulator when Using the SH7080 Series/SH7146 Series/SH/Tiny Series When the SH7080 series/SH7146 series/SH/Tiny series is used during debugging without connecting the EV-chip unit, a reset must be input when the emulator is activated. 3.2.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Notes: 1. O: Can be set in the dialog box. X: Cannot be set in the dialog box. 2. For the Action item, B: Setting a break is enabled. (For the count condition, setting a break is only enabled.) T1: Setting the trace halt and acquisition conditions are enabled for the internal trace. T2: Setting the trace halt is enabled for the internal trace.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Sequential Setting: Using the [Combination action (Sequential or PtoP)] dialog box specifies the sequential condition and the start or end of performance measurement. Table 3.8 Conditions to Be Set Classification Item [Ch1, 2, 3] list box Sets the sequential condition and the start or end of performance measurement using Event Conditions 1 to 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Notes: 1. If the start condition is satisfied after the end condition has been satisfied by measuring performance, performance measurement will be restarted. For the measurement result after a break, the measurement results during performance measurement are added. 2.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Figure 3.1 [Source] Window at Execution Halted (Sequential Break) If the sequential condition, performance measurement start/end, or point-to-point for the internal trace is set, conditions of Event Condition to be used will be disabled. Such conditions must be enabled from the popup menu by clicking the right mouse button on the [Event Condition] sheet. Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Notes: 1. If the Event condition is set for the slot in the delayed branch instruction by the program counter (after execution of the instruction), the condition is satisfied before executing the instruction in the branch destination (when a break has been set, it occurs before executing the instruction in the branch destination). 2.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series 3.2.2 Trace Functions The emulator supports the trace functions listed in table 3.9. Table 3.9 Trace Functions Function Internal Trace AUD Trace Branch trace Supported Supported Memory access trace Supported Supported Software trace Not supported Supported The trace functions listed in table 3.9 are available when the EV-chip unit is connected to the emulator.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Internal Trace Function: When [I-Trace] is selected for [Trace type] on the [Trace Mode] page of the [I-Trace/AUD-Trace acquisition] dialog box, the internal trace can be used. Figure 3.2 [I-Trace/AUD-Trace acquisition] Dialog Box (Internal Trace Function) Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series The following three items can be selected as the internal trace from [Type] of [I-Trace mode]. Table 3.11 Information on Acquiring the Internal Trace Item Acquisition Information [L-Bus & Branch] Acquires the data and branch information on the L-bus. • Data access (read/write) • Branch information • Instruction fetch [I-Bus] Acquires the data on the I-bus.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Using Event Condition restricts the condition; the following three items are set as the internal trace conditions. Table 3.12 Trace Conditions of the Internal Trace Item Acquisition Information Trace halt Acquires the internal trace until the Event Condition is satisfied. (The trace content is displayed in the [Trace] window after a trace has been halted. No break occurs in the user program.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Set the address condition as H’2000 in the [Event Condition 4] dialog box. Set [Ch4, 5] as [I-Trace Ch5 to Ch4 PtoP] in the [Combination action] dialog box. When point-to-point and trace acquisition condition are set simultaneously, they are ANDed. Notes on Internal Trace: • Timestamp The timestamp is twice the crystal oscillator or the external clock that is connected to or input to the target MCU. Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series • Trace acquisition condition Do not set the trace end condition for the sleep instruction and the branch instruction according to which the delay slot becomes the sleep instruction. When [I-BUS, L-Bus] is selected and the trace acquisition condition is set for the L-bus and Ibus with Event Condition, set the L-bus condition and the I-bus condition for [Event Condition 1] and [Event Condition 2], respectively.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series AUD Trace Functions: This function is operational when the AUD pin of the device is connected to the emulator. Table 3.14 shows the AUD trace acquisition mode that can be set in each trace function. Table 3.14 AUD Trace Acquisition Mode Type Mode Description Continuous trace occurs Realtime trace When the next branch occurs while the trace information is being output, all the information may not be output.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Figure 3.3 [Trace mode] Page When the AUD trace function is used, select the [AUD function] radio button in the [Trace type] group box of the [Trace mode] page. Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series (a) Branch Trace Function The branch source and destination addresses and their source lines are displayed. Branch trace can be acquired by selecting the [Branch trace] check box in the [AUD mode] group box of the [Trace mode] page. The branch type can be selected in the [AUD Branch trace] page. Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Figure 3.4 [AUD Branch trace] Page (b) Window Trace Function Memory access in the specified range can be acquired by trace. Two memory ranges can be specified for channels A and B. The read, write, or read/write cycle can be selected as the bus cycle for trace acquisition. Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series [Setting Method] (i) Select the [Channel A] and [Channel B] check boxes in the [AUD mode] group box of the [Trace mode] page. Each channel will become valid. (ii) Open the [Window trace] page and specify the bus cycle and memory range that are to be set for each channel. Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Figure 3.5 [Window trace] Page Note: When [L-Bus] or [I-Bus] is selected, the following bus cycles will be traced. • L-Bus: A bus cycle generated by the CPU is acquired. • I-Bus: A bus cycle generated by the CPU, DMA, or DTC is acquired. (Some MCUs will incorporate no DMAC or DTC.) Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series (c) Software Trace Function Note: This function can be supported with SHC/C++ compiler (manufactured by Renesas Technology Corp.; including OEM and bundle products) V7.0 or later. When a specific instruction is executed, the PC value at execution and the contents of one general register are acquired by trace. Describe the Trace(x) function (x is a variable name) to be compiled and linked beforehand.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series 3.2.3 Notes on Using the JTAG (H-UDI) Clock (TCK) and AUD Clock (AUDCK) 1. Set the JTAG clock (TCK) frequency as a value that is lower than the frequency of the peripheral clock (Pφ) and 1/4 or lower than the frequency of the bus clock (Bφ). 2. The initial value of the JTAG clock (TCK) is 2.5 MHz. 3. A value to be set for the JTAG clock (TCK) is initialized after executing [Reset CPU] or [Reset Go].
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series 3.2.6 Performance Measurement Function The emulator supports the performance measurement function. Note: When SH7124 or SH7125 is used and debugging is performed without connecting the EVchip unit, the performance measurement function is not available. This function is available when the EV-chip unit is connected to the emulator. 1.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Figure 3.6 [Performance Analysis] Dialog Box For measurement tolerance, • The measured value includes tolerance. • Tolerance will be generated before or after a break. For details, see table 3.17. Note: When [Ch2 to Ch1 PA] or [Ch1 to Ch2 PA] is selected, to execute the user program, specify conditions set in Event Condition 2 and Event Condition 1 and one or more items for performance measurement. Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series (b) Measurement item Items are measured with [Channel 1 to 4] in the [Performance Analysis] dialog box. Maximum four conditions can be specified at the same time. Table 3.16 shows the measurement items. Table 3.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Note: If a performance counter overflows as a result of measurement, “********” will be displayed. 3. Initializing the measured result To initialize the measured result, select [Initialize] from the popup menu in the [Performance Analysis] window or specify INIT with the PERFORMANCE_ANALYSIS command. Rev. 5.00 Aug.
Section 3 Software Specifications when Using the SH7080 Series/SH7146 Series/SH/Tiny Series Rev. 5.00 Aug.
Section 4 User System Interface Circuits Section 4 User System Interface Circuits 4.1 User System Interface Circuits Some signals from the optional EV-chip unit are connected to ICs and pull-up resistors. Figures 4.1 through 4.12 show user system interface circuits. Use the figures as a reference in determining the values of the pull-up resistors.
Section 4 User System Interface Circuits User system SH7080 Vcc *1 _WDTOVF _WDTOVF Figure 4.2 User System Interface Circuits Notes: 1. If the product revision of the R0E570800VKK00 EV-chip unit is a letter from A to H at shipment from the factory, the value of the pull-up resistor will be 47 kΩ. 2. The product revision at the time of shipment from the factory is printed on the edge of the R0E570800VKK00 board. Check the alphabetic character following the six-digit number. Rev. 5.00 Aug.
Section 4 User System Interface Circuits SH7080 User system Vcc *1 HD151015 EP1K100FC AHC14 AHC14 NMI NMI Vcc HD151015 *1 LVC08 EP1K100FC AHC14 AHC14 _RES _RES CN2 Figure 4.3 User System Interface Circuits Notes: 1. If the product revision of the R0E570800VKK00 EV-chip unit is a letter from A to H at shipment from the factory, the value of the pull-up resistor will be 47 kΩ. 2. The product revision at the time of shipment from the factory is printed on the edge of the R0E570800VKK00 board.
Section 4 User System Interface Circuits SH7080 User system PLLVcL N.C. PLLVss N.C. XTAL PLLVss XTAL N.C. HD151015 EP1K100FC LVTH16244 EXTAL EXTAL VcL N.C. VcL 3.3V Vcc Vss G6K_2G_DC3V Vss 3.3V Vcc PVcc G6K_2G_DC3V 3.3V AVcc AVcc AVss G6K_2G_DC3V 3.3V AVref AVss AVref Figure 4.4 User System Interface Circuits Rev. 5.00 Aug. 18, 2009 Page 62 of 78 REJ10J1237-0500 N.C.
Section 4 User System Interface Circuits SH7080 User system PF(15:0) PF(15:0) AVcc DALC112S1 EP1K100FC ASEBCK N.C. ASEBCK LVTH16244 ASEBRK N.C. ASEBRK Figure 4.5 User System Interface Circuits Rev. 5.00 Aug.
Section 4 User System Interface Circuits User system SH7080 Vcc PA(5:3), PA(9:7) PA(15:14), PB(2:1) PB (9:4) PC0, PC2, PD2 PD(12:5), PD(15:14) PE(2:0), PE6 PE(15:13) PA10, PA(13:12) PB0, PC1 PC(15:3), PD(1:0) PD(4:3), PD13 PE(4:3), PE7 PE10, PE12 *1 EP1K100FC EP1K100FC PE8 *2 CB3T16211 *2 CB3T16211 PA(5:3), PA(9:7) PA(15:14), PB(2:1) PB (9:4) PC0, PC2, PD2 PD(12:5), PD(15:14) PE(2:0), PE6 PE(15:13) PA10, PA(13:12) PB0, PC1 PC(15:3), PD(1:0) PD(4:3), PD13 PE(4:3), PE7 PE10, PE12 PE8 Figure 4.
Section 4 User System Interface Circuits User system SH7080 Vcc *1 PA(2:0), PA(9:4) PA12, PA15 PB(9:2), PC0 PC12, PD(4:2) PD(15:6), PE(3:0) PE(7:5), PE(14:13) PA3, PA(11:10) PA(14:13), PB(1:0) PC(11:1), PC(15:13) PD(1:0), PD5 PE4, PE(9:8) PE(12:11), PE15 PE10 EP1K100FC EP1K100FC *2 CB3T16211 *2 CB3T16211 PA(2:0), PA(9:4) PA12, PA15 PB(9:2), PC0 PC12, PD(4:2) PD(15:6), PE(3:0) PE(7:5), PE(14:13) PA3, PA(11:10) PA(14:13), PB(1:0) PC(11:1), PC(15:13) PD(1:0), PD5 PE4, PE(9:8) PE(12:11), PE15 PE10 F
Section 4 User System Interface Circuits User system SH7080 Vcc PA2, PA(9:5) PA12, PA(18:15) PA23, PB(9:2) PC0, PC4, PC12 PD(5:2), PD8 PD(24:10), PD(29:26) PE(3:0), PE7 PE(15:13) PA(1:0), PA(4:3) PA(11:10), PA(14:13) PA(22:19), PA25 PB(1:0), PC(3:1) PC(11:5), PC(15:13) PD(1:0), PD(7:6) PD9, PD25 PD(31:30), PE(6:4) PE(9:8), PE(12:11) *1 EP1K100FC EP1K100FC PA24, PE10 *2 CB3T16211 *2 CB3T16211 PA2, PA(9:5) PA12, PA(18:15) PA23, PB(9:2) PC0, PC4, PC12 PD(5:2), PD8 PD(24:10), PD(29:26) PE(3:0), PE7 PE
Section 4 User System Interface Circuits User system SH7080 Vcc PA2, PA(13:4) PA(18:15), PA(29:26) PB (9:2), PC1 PC12, PC(25:23) PD6, PD8 PD(11:0), PD14 PD(28:16), PD31 PE(3:0), PE(15:11) PE17 PA(1:0), PA3 PA14, PA(23:19) PA25, PB(1:0) PC0, PC(11:2) PC(15:13), PC(22:18) PD(5:0), PD7 PD9, PD(13:12) PD15, PD(30:29) PE(10:4), PE16 PE(21:18) PA24 *1 EP1K100FC EP1K100FC *2 CB3T16211 *2 CB3T16211 PA2, PA(13:4) PA(18:15), PA(29:26) PB (9:2), PC1 PC12, PC(25:23) PD6, PD8 PD(11:0), PD14 PD(28:16), PD31 PE(
Section 4 User System Interface Circuits User system SH7080 Vcc *1 PA(15:0), PB(5:2) PB(18:17), PE(6:4) PE10, PE13, PE17 PE19, PE21 PB16, PE(3:0) PE(9:7), PE(12:11) PE(16:14), PE18 PE20 EP1K100FC EP1K100FC *2 CB3T16211 PA(15:0), PB(5:2) PB(18:17), PE(6:4) PE10, PE13, PE17 PE19, PE21 *2 CB3T16211 PB16, PE(3:0) PE(9:7), PE(12:11) PE(16:14), PE18 PE20 Figure 4.10 User System Interface Circuits when Selecting SH7146 Operating Mode Notes: 1.
Section 4 User System Interface Circuits User system SH7080 Vcc *1 PA(15:1), PB(5:1) PB18, PD(7:0) PD(15:13), PE2 PE7, PE13 PE(16:15), PE(20:19) PA0, PB0, PB17 PD(12:8), PE(1:0) PE(6:3), PE(12:8) PE14, PE(18:17) PE21 PB16 EP1K100FC EP1K100FC *2 CB3T16211 *2 CB3T16211 PA(15:1), PB(5:1) PB18, PD(7:0) PD(15:13), PE2 PE7, PE13 PE(16:15), PE(20:19) PA0, PB0, PB17 PD(12:8), PE(1:0) PE(6:3), PE(12:8) PE14, PE(18:17) PE21 PB16 Figure 4.
Section 4 User System Interface Circuits User system SH7080 Vcc *1 PA(11:0), PA(15:14) PB(3:2), PB5 PB16, PE0, PE(4:3) PE11, PE(14:13) PA(13:12), PB1 PE(2:1), PE(10:5) PE12, PE15 EP1K100FC EP1K100FC *2 CB3T16211 *2 CB3T16211 PA(11:0), PA(15:14) PB(3:2), PB5 PB16, PE0, PE(4:3) PE11, PE(14:13) PA(13:12), PB1 PE(2:1), PE(10:5) PE12, PE15 Figure 4.12 User System Interface Circuits when Selecting SH7125/SH7124 Operating Mode Notes: 1.
Section 4 User System Interface Circuits 4.2 User System Interface Board Circuits Some signals from the optional user system interface board are connected to a switch and a pull-up resistor. When using the user system interface board, determine the values of the pull-up resistors with reference to section 4.1, User System Interface Circuits, and the circuit diagrams in this section. Figures 4.13 through 4.18 show user system interface board circuits.
Section 4 User System Interface Circuits User system interface board EV-chip unit User system Vcc PA0, PA1, PA6 PA7, PA10, PA11 PA17, PB7, PB8 PE5, PE6 Other signals SW 100 kΩ PA0, PA1, PA6 PA7, PA10, PA11 PA17, PB7, PB8 PE5, PE6 Other signals Figure 4.14 User System Interface Board Circuits for the SH7084 Rev. 5.00 Aug.
Section 4 User System Interface Circuits User system interface board EV-chip unit User system Vcc PA0, PA1, PA6 PA7, PA10, PA11 PA17, PA18, PA20 PA21, PB7, PB8 PD28, PD29, PE5 PE6 Other signals SW 100 kΩ PA0, PA1, PA6 PA7, PA10, PA11 PA17, PA18, PA20 PA21, PB7, PB8 PD28, PD29, PE5 PE6 Other signals Figure 4.15 User System Interface Board Circuits for the SH7085 Rev. 5.00 Aug.
Section 4 User System Interface Circuits User system interface board EV-chip unit User system Vcc PA0, PA1, PA6 PA7, PA10, PA11 PA17, PA18, PA20 PA21, PB7, PB8 PD28, PD29, PE5 PE6, PE16 Other signals SW 100 kΩ PA0, PA1, PA6 PA7, PA10, PA11 PA17, PA18, PA20 PA21, PB7, PB8 PD28, PD29, PE5 PE6, PE16 Other signals Figure 4.16 User System Interface Board Circuits for the SH7086 Rev. 5.00 Aug.
Section 4 User System Interface Circuits User system interface board EV-chip unit User system Vcc SW PA9, PB1, PE10 PE16, PE17, PE18 Other signals 100 kΩ PA9, PB1, PE10 PE16, PE17, PE18 Other signals Figure 4.17 User System Interface Board Circuits for the SH7149 Rev. 5.00 Aug.
Section 4 User System Interface Circuits EV-chip unit User system interface board All signals User system All signals Figure 4.18 User System Interface Board Circuits for the SH7146/SH7125/SH7124 Rev. 5.00 Aug.
Section 4 User System Interface Circuits 4.3 Delay Time for the User System Interface Since the _RES and NMI signals are connected to the user system via the logic on the EV-chip unit, a delay time shown in table 4.1 will be generated until the signal is input from the user system to the MCU. Table 4.1 Delay Time for Signals via the EV-chip Unit No. Signal Name Delay Time (ns) 1 _RES 20 2 NMI 16 Rev. 5.00 Aug.
Section 4 User System Interface Circuits Rev. 5.00 Aug.
SH-2A, SH-2 E200F Emulator Additional Document for User's Manual Supplementary Information on Using the SH7083, SH7084, SH7085, SH7086, SH7146, SH7149, SH7124, and SH7125 Publication Date: Rev.1.00, January 4, 2006 Rev.5.00, August 18, 2009 Published by: Sales Strategic Planning Div. Renesas Technology Corp. Edited by: Customer Support Department Global Strategic Communication Div. Renesas Solutions Corp. © 2009. Renesas Technology Corp., All rights reserved. Printed in Japan.
Sales Strategic Planning Div. Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan RENESAS SALES OFFICES http://www.renesas.com Refer to "http://www.renesas.com/en/network" for the latest and detailed information. Renesas Technology America, Inc. 450 Holger Way, San Jose, CA 95134-1368, U.S.A Tel: <1> (408) 382-7500, Fax: <1> (408) 382-7501 Renesas Technology Europe Limited Dukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K.
SH-2A, SH-2 E200F Emulator Additional Document for User’s Manual Supplementary Information on Using the SH7083, SH7084, SH7085, SH7086, SH7146, SH7149, SH7124, and SH7125 1753, Shimonumabe, Nakahara-ku, Kawasaki-shi, Kanagawa 211-8668 Japan REJ10J1237-0500
