Test and Development Environment for the PCAN-MicroMod
Products taken into account Product Name Item Number Model PCAN-MicroMod Evaluation Kit (incl. PCAN-Dongle) PCAN-MicroMod Evaluation Kit (incl. PCAN-USB) IPEH-000 IPEH-000 Evaluation Board Rev.. Evaluation Board Rev.. The cover picture shows the MicroMod Evaluation Board with plugged on PCAN- MicroMod. This is only a part of the scope of supply (see section.). Last Updates October, 00 Fully revised edition February, 00 Minor text changes Windows and MS-DOS are registered trademarks of Microsoft Corporation in the United States and other countries. All other product names mentioned herein may be the trademarks or registered trademarks of their respective companies. Furthermore, " " and " " are not mentioned in each case in this manual. 00 PEAK-System Technik GmbH PEAK-System Technik GmbH Otto-Röhm-Straße D- Darmstadt, Germany Phone: + (0)--0 Fax: + (0)-- www.peak-system.com info@peak-system.com
Contents Introduction. Properties at a Glance. Special Prerequisites for the Operation. Scope of Supply Startup of the Evaluation Kit Components of the Evaluation Board. MicroMod (Mounting). Digital Inputs. Digital Outputs. Frequency Inputs. Frequency Outputs. Analog Inputs. Prototyping Areas. CAN 0. RS-.0 Power Supply Frequently Asked Questions (FAQ) Technical Specifications Appendix A Layout of the Evaluation Board Appendix B Circuit Diagram of the Evaluation Board
Introduction The PCAN-MicroMod Evaluation Kit makes it easy connecting hardware to the MicroMod and configuring it with your computer. The various I/O units on the Evaluation Board facilitate the development and the evaluation of the module's configuration functionality. Note: This manual only refers to the Evaluation Kit itself. Separate hardware and software documentation is available for the PCAN-MicroMod and the supplied PC/CAN adapter (PCAN- Dongle or PCAN-USB).. Properties at a Glance Terminal strips and test pins for inputs and outputs Open collector drivers for the digital and the CMOS PWM outputs Protected digital outputs Low-pass for digital inputs s for digital inputs and outputs Switches for status modification of the digital inputs Potentiometers for analog inputs Resistive dividers for voltages > V Serial port for flash updates Optional insertion of a Low-speed CAN transceiver as alternative to the High-speed CAN transceiver on the MicroMod
. Special Prerequisites for the Operation For operating the Evaluation Board no special prerequisites are necessary. Please also observe the according notes in the other user manuals (PCAN-MicroMod, PCAN-Dongle / PCAN-USB).. Scope of Supply The scope of supply normally consists of the following parts: MicroMod Evaluation Board PCAN-MicroMod Wall power supply CAN cable ( m/ ft.) incl. termination for HS-CAN on both sides (IPEH-0000) PCAN-Dongle (kit IPEH-000) or PCAN-USB (kit IPEH-000)
Startup of the Evaluation Kit This chapter gives a quick overview of the needed steps for the straightforward startup of the Evaluation Kit. Please pay heed to the documentation for the single components, too. Do the following for the startup:. Connect the PCAN-Dongle or the PCAN-USB adapter to the switched off PC.. If not already done, plug the MicroMod onto the Evaluation Board (see section.).. Connect the PCAN-Adapter at the PC and the Evaluation Board using the CAN cable.. Connect the wall power supply and the Evaluation Board.. Switch on the PC and install the needed driver software under Windows (EXE file on diskette or CD-ROM with the name of the used PCAN adapter).. Setup the MicroMod Configuration Tool under Windows (file Setup.exe on diskette or CD-ROM).. Start the MicroMod Configuration Tool, create a configuration and finally send this configuration to the MicroMod (see help for the program).. You can now work with signals at the I/O ports as defined in the configuration. Please consider the explanations in the following chapter.
Components of the Evaluation Board This chapter describes the primary function units and connectors of the Evaluation Board. For details you can also refer to the circuit diagram in Appendix B.. MicroMod (Mounting) When you mount the MicroMod, take notice of the white triangular marks on each the Evaluation Board and the MicroMod (upper left corner). These marks must align. Another help may be the orientation of the labels. With mounted MicroMod the labels have the same orientation on both PCBs (not upside down).. Digital Inputs The Evaluation Board has digital inputs with TTL levels. The corresponding connector is J (screw terminal on the lower left). Each input has a pull-up resistor (0 kω) and is low-active, so the inputs are switched against. Each input status is indicated by an. For test purposes the input signal can be switched with the dip switch S. The corresponding switches are labeled "Din0" to "Din". The inputs have a low-pass filter with 00 kω/00 nf. Signals leading directly to the MicroMod can be picked off at the measuring points on strip J0, positions to (position is the upper one).
. Digital Outputs The Evaluation Board has digital outputs. The corresponding connector is J (screw terminal on the upper left). The outputs are low-active and can drive up to 0 ma. The s LD to LD indicate each status of the outputs. A lighting means that the output is active and is switched against mass. With solder bridges on positions JP to JP a pull-up resistor (. kω) can be engaged for each output (default: open). With this modification you gain TTL compatible output signals. With a solder bridge on position JP0 the outputs 0 to and on position JP the outputs to can be inverted by hardware (default: open).. Frequency Inputs The Evaluation Board has frequency inputs. The corresponding connector is J (Fin0 to Fin, screw terminal on the mid left). The MicroMod can meter frequencies from Hz to 0 khz. With solder bridges on positions JP to JP low-pass filters consisting of 00 kω/00 nf can be engaged for each input path. Frequency Input Fin0 Fin Fin Fin Solder bridge for low-pass on position JP JP JP JP
. Frequency Outputs The MicroMod can generate frequency signals and PWM signals. The corresponding connector on the Evaluation Board is J (Fo to Fo, screw terminal on the mid left). The output signal is protected against short circuit with a series resistance of Ω. With a solder bridge on position JP the output signal can be inverted by hardware (default: open).. Analog Inputs The Evaluation Board has analog inputs. The corresponding connector is J (screw terminal on the upper right). The analog reference voltage is V. The input impedance is. kω (. kω analog input microcontroller,. kω series impedance in front of the microcontroller input). The Evaluation Board has potentiometers (P0 to P) which can be used for simulating input signals. With solder bridges on positions JP to JP0 the potentiometers are connected to Ain0 to Ain (default: closed). For external sensors the screw terminal has the positions A and A.. Prototyping Areas The Evaluation Board has prototyping areas with 0-mil and 00-mil grids. Small circuits can be added here to the inputs and outputs.
. CAN The pin assignment of the CAN connector corresponds to the CiA recommendation DS 0-. With solder bridges on the positions JP and JP on the bottom side of the Evaluation Board the ground can be connected to the connector shield. On the Evaluation Board the High-speed CAN bus can be terminated with x 0 Ω by closing the solder bridges on positions JP and JP (both solder bridges must be closed, default: open). With solder bridges on position JP (default: open) a -Volt supply can be routed either to pin, pin, or to both pins of the CAN connector. This way devices with a low power consumption (external transceivers or optocouplers for example) can be directly supplied via the CAN connector. -Volt supply None Pin Pin Pin + Pin Solder bridge(s) on JP none - - -- A Low-speed CAN transceiver TJA 0 can be alternatively equipped on the Evaluation Board. Additionally following actions are necessary for according operation: The solder bridges on positions JP and JP must be set over from HS (High-speed) to LS (Low-speed). The 0-Ohm resistor on the MicroMod (above the CAN transceiver, on the lower right side of the label ) must be unsoldered. The Low-speed CAN bus is terminated with. kω. For lower termination resistance additional resistors can be equipped on positions R and R. The error condition of the Low-speed CAN transceiver is indicated by the LD. 0
The equipped Low-speed CAN transceiver may be deactivated later on by setting a solder bridge on position JP.. RS- The Evaluation Board has a serial port corresponding to the RS- standard with the signals TxD, RxD and. This port is used for uploading a firmware to the MicroMod. The connection to the PC is done with a serial extension cable (:). You can find information about a firmware upload in the user manual for the PCAN- MicroMod..0 Power Supply The Evaluation Board gets a DC voltage of V from the included wall supply via connector J (upper left). The voltage regulator on the board provides the necessary supply for the MicroMod (JP shortened on position -, default). The LD indicates that the Evaluation Board is supplied. At higher input voltages and higher environment temperatures at the same time (e.g. V, above room temperature) an alternative voltage regulator 0 with heat sink can be installed on position J. Optionally the use of an integrated switch regulator (e.g. PT0, PTHT0, PTST0, each by Texas Instruments) is possible. For example, this is reasonable in an environment with raised input voltage (e.g. V). In all cases each JP0 and JP must be shortened in position - (positions - stay open).
Frequently Asked Questions (FAQ) Question The circuit diagram for the PCAN-MicroMod is missing in the appendix. The MicroMod doesn t start. Answer Sorry, but this isn't published by us. You can find information about the assignment and functions of the connection pins in the user manual for the PCAN- MicroMod. Apart from the necessary power supply the MicroMod must be set up for normal operation mode (Run mode). This is done with the jumper S on the Evaluation Board (position Run=- ).
Technical Specifications MicroMod Evaluation Board Supply voltage Size of circuit board Digital inputs Digital outputs Frequency inputs Frequency outputs Analog inputs CAN. V DC (with existing voltage regulator), for higher input voltages the use of an alternative voltage regulator or an integrated switch regulator is possible 00 x 0 mm ( / x inches), TTL, low-active, input low-pass with 00 kω/00 nf, TTL, low-active, max. 0 ma, TTL, 0 V, input impedance. kω (combined impedance of Evaluation Board and MicroMod) HS-CAN termination (0 Ω) can be engaged, LS-CAN transceiver can be equipped alternatively Design and specifications are subject to change without notice.
Appendix A Layout of the Evaluation Board Top Side
Bottom Side
Appendix B Circuit Diagram of the Evaluation Board See following pages: MicroMod Evaluation Board Main, Page / (DIN A) MicroMod Evaluation Board Power, Page / (DIN A)
A B C D D C B A Title: MicroMod Evaluation Board Date: Sheet: Page -Oct-00 Revision:. Otto-Röhm-Straße D- Darmstadt Main PEAK-System Technik GmbH of Germany AI A AI0 A AI A AI A AI A AI A AI A AI A CAN-H A CAN-L A TxD A RxD A SCL A SDA A0 VREF A INT A M0 A M A DO B DO B DO B DO B DO B DO B DO B DO0 B FO B FO B0 FO B FO0 B FI B FI B FI B FI0 B DI B DI B0 DI B DI B DI B DI B DI B DI0 B B B A A A A A0 CAN TxD A CAN RxD A RESET A (J) (J) A A PCAN MicroMod PCAN_PICO R IN R IN T IN T IN 0 V+ V- R OUT R OUT T OUT T OUT C+ C - C+ C - U MAXESE() TxD RxD ERR STB EN WAKE RTH RTL 0 CANH CANL BAT INH U TJA0 I I I O I I I O O O 0 O O U ACT I I I O I I I O O O 0 O O U ACT In In Out Out L B0-S-N0 +DCin +V Netzteil PowerV.sch C C C C C C R K/% Male Female C uf/v C0 uf/v C uf/v C uf/v RN0 00Kx RN 00Kx RN 00Kx C C C C C C C C C0 C C C C C C0 C C C C C RN Kx RN Kx RN Kx 0 0 S SW DIP- 0 J CON0 0 J CON0 0 J CON0 SDA SCL INT Wrapfeld Wrap.sch C,uF S SW-SPDT/A JP0 JP JP JP 0 J HEADER 0 J CON0 0 J HEADER 0 J HEADER 0 J HEADER 0 JP JP JP JP JP JP JP JP J HEADER C R 0R FI0 FI FI FI FI0 FI FI FI FI0 FI FI FI DI0 DI DI DI DI DI DI DI DI0 DI DI DI DI DI DI DI DI0 DI DI DI DI DI DI DI FC0 FC FC FC FC0 FC FC FC FC0 FC FC FC DC0 DC DC DC DC DC DC DC DC0 DC DC DC DC DC DC DC DS0 DS DS DS DS DS DS DS DS0 DS DS DS DS DS DS DS DS0 DS DS DS DS DS DS DS FS0 FS FS FS FS0 FS FS FS FS0 FS FS FS DIN0 DIN DIN DIN DIN DIN DIN DIN DIN0 DIN DIN DIN DIN DIN DIN DIN DIN0 DIN DIN DIN DIN DIN DIN DIN DIN0 DIN DIN DIN DIN DIN DIN DIN FIN0 FIN FIN FIN FIN0 FIN FIN FIN FIN0 FIN FIN FIN FIN0 FIN FIN FIN DC0 DC DC DC DC DC DC DC FOC0 FOC FOC FOC FOC0 FOC FOC FOC FOC0 FOC FOC FOC DOC0 DOC DOC DOC DOC DOC DOC DOC DOC0 DOC DOC DOC DOC DOC DOC DOC DOC0 DOC DOC DOC DOC DOC DOC DOC DOC0 DOC DOC DOC DOC DOC DOC DOC DO0 DO DO DO DO DO DO DO DO0 DO DO DO DO DO DO DO FO0 FO FO FO DO0 DO DO DO DO DO DO DO DO0 DO DO DO DO DO DO DO FO0 FO FO FO FO0 FO FO FO FO0 FO FO FO AI0 AI AI AI AI AI AI AI AI0 AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI0 AI AI AI AI0 J CON 0 0 J SUB-DM 0 0 J SUB-DF JP J POWER JACK mm LD Red P K lin P0 K lin P K lin P K lin + C 0uF/,V C,uF C,uF JP JP JP JP C C,uF L 0uH/mA L 0uH/mA S SHORT A A A A A A A C0 S SW-PB A A VREF VREF A A H L JP JP JP R R/% R 0K JP JP R 0R % JP C 0nF R 0R % R K/% R R/% JP JP JP LD LD0 LD LD LD LD LD LD LD LD LD LD0 LD LD LD LD LD LD LD LD LD LD LD LD 0 J0 HEADER FI0 FI FI DI DI DI0 DI DI DI DI DI FI C A A IN IN FAULT VS IN IN 0 ENA OUT OUT OUT OUT PRG 0 U TLEG IN IN FAULT VS IN IN 0 ENA OUT OUT OUT OUT PRG 0 U TLEG JP JP0 Ia Ib Ia O Ib Ia Ib 0 O O O Ia Ib U ACM C JP R0 R 0,W R R 0,W R R 0,W R R 0,W * * * * Invert Output Polarity R 0K R k R k R k R k R k R0 k R k R k R k R k R k R k R 0k R 0k R 0k R0 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R0 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R0 0k R k R k R k R k R k R k R k R k R k R0 k R k R k R k R k R k R k R k R k R k R0 k R 0R R 0R R k R k
D D Optional J CON C C C uf/v C + C uf/v B +DCin D MBR00T JP U LM_TO- Vin JP0 Vout LD Red +V B + C uf/v C + C uf/0v C R 0R A PEAK-System Technik GmbH Otto-Röhm-Straße D- Darmstadt Germany Title: MicoMod Evaluation Board Sheet: Power Revision:. Page of Date: -Oct-00 A