iC-MH / iC-MH8 EVAL MH2D EVALUATION BOARD - iC-Haus

iC-MH / iC-MH8 EVAL MH2D EVALUATION BOARD - iC-Haus
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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ORDERING INFORMATION
Depending on order designation, the MH2D evaluation board DIP28 socket is equipped with an 28pin PCB
adapter board containing either
iC-MH ("iC-MH EVAL MH2D") or
iC-MH8 ("iC-MH8 EVAL MH2D").
The 28pin PCB adapter boards are also available separately under order designation "iC-MH iCSY MH2M" or
"iC-MH8 iCSY MH2M" as supplement.
Type
Order Designation
Evaluation Boards
iC-MH EVAL MH2D
Description Options
iC-MH Evaluation Board
ready to operate, accessible through GUI via PC adapter
iC-MH8 EVAL MH2D
iC-MH8 Evaluation Board
ready to operate, accessible through GUI via PC adapter
Software
iC-MH GUI
iC-MH GUI software for Windows PC
stores setup to file, communication to iC-MH
iC-MH8 GUI
iC-MH8 GUI software for Windows PC
stores setup to file, communication to iC-MH8
please see www.ichaus.com for download information
PC Adapter
iC-MB3 iCSY MB3U
iC-MB4 iCSY MB4U
PC-USB Adapter
PC-USB Adapter
Accessory
iC-MH iCSY MH2M
iC-MH8 iCSY MH2M
DIL-28 PCB Adapterboard with mounted iC-MH
DIL-28 PCB Adapterboard with mounted iC-MH8
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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BOARD MH2D
(size 100 mm x 80 mm)
TERMINAL DESCRIPTION
VB
GND
+10 to +20 V Supply Voltage
0 V Ground
A
B
Z
U
V
W
Incremental A (+NU)
Incremental B (+NV)
Index Z (+NW)
Commutation U (+NA)
Commutation V (+NB)
Commutation W (+NZ)
VND
VNA
VPA
VPD
VZAP
Ground (digital)
Ground (analog)
+5 V Supply Voltage (analog)
+5 V Supply Voltage (digital)
Zener Zapping Programming Voltage
NERR
MA
SLO
SLI
Error Output (active low)
Clock Input Interface/SSI
Data Output Interface/SSI
Data Input Interface/SSI
VNA
NSOUT
PSOUT
PCOUT
NCOUT
VND
Ground (analog)
Negative Sine Output (iC-MH8 only)
Positive Sine Output (iC-MH8 only)
Positive Cosine Output (iC-MH8 only)
Negative Cosine Output (iC-MH8 only)
Ground (digital)
Figure 1: Component side
D1
Error Indicator LED (red)
Illuminates red to indicate errors
Connected to NERR pin of iC-MH
D2
Voltage Supply Indicator LED (green)
Illuminates green to indicate voltage supply
Connected to VPD pin of iC-MH
Figure 2: Top view
Copyright © 2012 iC-Haus
http://www.ichaus.com
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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RELATED DOCUMENTS
• iC-MH Data Sheet - Specification • iC-MH GUI - GUI software for Windows PC → http://www.ichaus.de/product/iC-MH
• iC-MH8 Data Sheet - Specification • iC-MH8 GUI - GUI software for Windows PC → http://www.ichaus.de/product/iC-MH8
• iC-MB3 iCSY MB3U - PC-USB ADAPTER • iC-MB4 iCSY MB4U - PC-USB ADAPTER → http://www.ichaus.de/product/MB3U
→ http://www.ichaus.de/product/MB4U
CONNECTOR AND TERMINAL PINOUT
9-pin Sub D Connector J1 - male
PIN
Name
Function
1
VB
+12 V Supply Voltage
2
MAO +
Master clock output
3
MAO Master clock output (inverted)
4
VDD
+5 V Supply Voltage
5
SLO Data output (inverted)
6
GND
0 V Ground
7
SL +
Slave data
8
SL Slave data (inverted)
9
SLO +
Data output
9-pin Sub D Connector J2 - female
PIN
Name
Function
1
VB
+12 V Supply Voltage
2
MA +
Master clock input
3
MA Master clock input (inverted)
4
VDD
+5 V Supply Voltage
5
SLI Data input line (inverted)
6
GND
0 V Ground
7
SL +
Slave data
8
SL Slave data (inverted)
9
SLI +
Data input line
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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mh2d_schem_rev.des
CIRCUIT DESCRIPTION
Figure 3: Circuit diagram including optional components
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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Setup ("MH2D connected via USB Adapter - MB3U")
The MH2D board features two 9-pin SUB-D connectors for serial communication. The PC-USB Adapter enables
the evaluation board to be connected to a common Windows PC. Figure 4 shows the setup for a single board
connected via the IN junction (J4).
Figure 4: Connection of one MH1D evaluation board to MB3U adapter
Settings of the jumpers are shown in detail in 5
IN
OUT
Board #1
USB
MB3U
MH2D
Figure 5: Connection and jumper settings of one MH1D evaluation board to MB3U adapter
Figure 6 shows another example how to use two MH1D evaluation boards at the same time. Here the IN junction
(J4) of the second board is plugged on the OUT junction An external power supply (12 V - inner contact: negative
pole - outer contact: positive pole) is required in case of connecting two boards. iC-MH/iC-MH8 software can be
used to access the board from a Windows PC (see section "APPLICATION SOFTWARE" for more details).
Note : Please install the latest USB driver before you attach the PC Adapter to the PC.
Important jumper settings are explained in-depth in section "JUMPER DESCRIPTION"
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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IN
OUT
Board #1
IN
OUT
Board #2
external 12V
power supply
USB
MB3U
MH2D
MH2D
Figure 6: Connection and jumper settings of two MH1D evaluation boards to MB3U adapter
JUMPER DESCRIPTION
Communication Chain
Board 1
Board 2 (optional)
Information
Jumper Configuration Jumper Configuration
JP1
JP2
JP1
JP2
Set the board 1 as the last slave bridged
bridged
N/A
N/A
in the line
Set the board 2 as the last slave open
open
bridged
bridged
in the line
open
open
N/A
N/A
open
open
open
open
bridged
bridged
open
open
bridged
bridged
bridged
briged
Comments
shipment setup
(only one board)
Adapter → Board 1 (J4)
Board 1 → Board 2 (J1)1
don’t use
don’t use
don’t use
don’t use
Notes 1 ) Connect the two boards as shown in figure 6.
Voltage Supply - Adapter "MB3U"
Voltage Supply
via board
via J4
terminals2
plug3
X
Component Supply
iC-MH
via J4 (VDD)
Jumper Configuration Comments
JP3 (VDD) JP4 (VB)
+5 V via J4
+12 V via J4
bridged
open
shipment setup
(no zapping possible)
X
X
X
X
X
X
X
via J4 (VB)
via board terminals
shortens VB terminal to J4
shortens VB terminal to J4
open
open
bridged
don’t care
bridged
open
don’t care
bridged
zapping possible
zapping possible
don’t use
don’t use
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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Voltage Supply - Adapter "MB3A"
Voltage Supply
via board
via J4
terminals2
plug4
none
Component Supply
iC-MH
MB3A
Jumper Configuration Comments
JP3 (VDD) JP4 (VB)
no voltage supply
bridged
open
shipment setup
(no zapping possible)
X
none
via board terminals
bridged
don’t care
Notes 2 ) Supply of +10 to +20 V required to board terminals VB and GND.
3
) Supply voltage sourced from J4 plug out of PC adapter.
4
) MB3A needs to be externally supplied via the MH1D evaluation board
zapping possible
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iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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Zapping
Information
Jumper Configuration Comments
JP8
1-2
shipment setup
VZAP to GND (0 V)
(no zapping possible)
VZAP to VZAP (7 V)
VZAP to VPD (5 V)
2-3
open
zapping possible
pseudo zapping5
Notes 5 ) Zapping-command will be sent but voltage supply of 5 V isn’t sufficient to write zapping ROM.
At least 6,5 V is required to successfully write zapping ROM.
ASSEMBLY PART LIST
Device
C1, C7
C2, C9, C10, C11
C3, C4, C5, C6
C8
D1
D2
D3, D4, D7
D5, D6
J1
J2
J5
J6, J7
J8
Value (typical)
330 nF
100 nF
1 µF
10 µF
LS-T670
LG-T670
BYS10-45
CP05
D-SUB9 M
D-SUB9 F
AKL059-02
MK 01 14 G
MK 01 2 G
JP1 - JP4
JP1 - JP4
JP7, JP9
JP8
R1, R2
R4, R5
R6, R7, R9
R8
U2, U3
U4
U5
SL LP1/097 2G
0Ω
SL LP1/097 3G
10 kΩ
120 Ω
1 kΩ
220 Ω
75LBC179
78M05
LM317
Comment
Supply backup capacitor
Supply backup capacitor
Supply backup capacitor
Indicator LED (red) for error message
Indicator LED (green) for power supply
Revers protection diodes
Line protection diodes
Serial output connector
Serial input connector
Screwing terminal for power supply VB
Connection to DIL28 iC-MH/iC-MH8-Adapter
Connection to DIL28 iC-MH/iC-MH8-Adapter
(Substrate)
Jumper
Jumper CAB
Jumper for zapping voltage supply
Pull-up Vzap / Pull-down PTE
Line termination resistors
Line driver for serial interface
Voltage reglulator (5V)
Voltage regulator (adj. to 7V)
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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APPLIACTION SOFTWARE
iC-MH / iC-MH8 software for PCs running on Windows operating systems, as well as the required USB driver
are available as a ZIP file.
Download package:
http://www.ichaus.de/MH_gui
http://www.ichaus.de/MH8_gui
Software overview online: http://www.ichaus.de/software
Features
•
•
•
•
•
•
Reducing evaluation and design-in time and cost
Manually setting up parameters of iC-MH/iC-MH8
Saving parameter configuration into ROM
Saving parameter configuration to Hex files
Loading predefined configurations from Hex files
Reading and displaying of sensor data
Installation
After unzipping the iC-MH/iC-MH8 software package MH1SO_gui_xx resp. MH1SO_gui_xxrte, the following files
are located in the selected working directory.
xx is a placeholder for revisions
→ Subfolder MH1SO_gui_xx including the executable setup.exe which starts the installation routine.
→ Driver packages for USB or other adapter devices.
→ Evaluation board description.
Note: Administrator rights are required to run installations.
1. To access the iC-MH / iC-MH8 evaluation board, interface adapter drivers for USB or other adapter devices
need to be installed. Before connecting the adapter to your PC the driver installation must be completed successfully.
→ Execute the USB_xx.exe installation package and follow the on-screen instructions. This can take a few
minutes.
1.1 When using an iC-Haus USB adapter, it must be connected to the PC after the driver installation, to complete
the whole driver installation procedure.
2. Install the evaluation software MH1SO by executing the setup.exe located in the subfolder MH1SO_gui_xx.
→ Follow the on-screen instructions to finish the installation.
3. After installation the executable MH1SO_gui_xx.exe will be available in the selected working directory. Figure
7 shows a screenshot of the evaluation software.
LabView™is a trademark of National Instruments.
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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Figure 7: Evaluation software start-up window (shown for iC-MH)
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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Function Description
The iC-MH / iC-MH8 software starts in the ’No Hardware’ mode. This state can be used to configure parameters
without any hardware connected to save the configuration into a Hex file for later use (e. g. zapping ROM).
Menu Section
Button
Open
Save
Exit
Description
Chip configuration I/O, Intel Hex file format (*.hex)
Transfer configuration to file, Intel Hex file format (*.hex)
Quit software
<Mode>
No Hardware
MB3U
MB4U
Lpt-Spi
Switch to no hardware to reset PC to adapter communication
for use with PC-USB adapter MB3U
for use with PC-USB adapter MB4U
for use with PC-LPT adapter MB3A, eval board MB3D-S
<Interface>
Config Interface
Read RAM
Read ROM
Read ALL
Write RAM
Write ROM
Read ID
Read Profile
Serial interface settings (use AUTODETECT for slave detection)
Reads in iC-MH’s current configuration (RAM to PC)
Reads in ROM’s current configuration (ROM to PC)
Reads the whole content (RAM, ROM, ID, Profile to PC)
Transfers the displayed configuration to iC-MH RAM
Transfers the displayed configuration to ROM
Reads in iC-MH’s ID (address: 0x78-0x7F)
Reads in iC-MH’s Profile (address: 0x42-0x43)
<Extra>
Enable Output Window
About
Displays sensor data (optical, hexadecimal, decimal, binary, degree)
Additional informations
<File>
Upper Section
Button
Slave ID
CYCLE READ
READ SENSOR
Description
Switches between slaves
Activates continuous sensor data read in
Reads in sensor data (continuously with CYCLE READ activated)
Middle Section
Parameter settings. See iC-MH Data Sheet for detailed description
Bottom Section
Button
READ RAM
READ ROM
READ ALL
WRITE RAM
WRITE ROM
Description
See description of Menu section
See description of Menu section
See description of Menu section
See description of Menu section
See description of Menu section
For a detailed description of the parameter settings please refer to iC-MH / iC-MH8‘s Data Sheet. When moving
the mouse cursor to a parameter input box, a tool tip is displayed identifying the corresponding parameter name
as described in the specification.
iC-MH/iC-MH8 EVAL MH2D
EVALUATION BOARD DESCRIPTION
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REVISION HISTORY
Rev
A1
Notes
Initial version
Pages affected
iC-Haus expressly reserves the right to change its products and/or specifications. An info letter gives details as to any amendments and additions made to the
relevant current specifications on our internet website www.ichaus.de/infoletter; this letter is generated automatically and shall be sent to registered users by
email.
Copying – even as an excerpt – is only permitted with iC-Haus’ approval in writing and precise reference to source.
iC-Haus does not warrant the accuracy, completeness or timeliness of the specification and does not assume liability for any errors or omissions in these
materials.
The data specified is intended solely for the purpose of product description. No representations or warranties, either express or implied, of merchantability, fitness
for a particular purpose or of any other nature are made hereunder with respect to information/specification or the products to which information refers and no
guarantee with respect to compliance to the intended use is given. In particular, this also applies to the stated possible applications or areas of applications of
the product.
iC-Haus conveys no patent, copyright, mask work right or other trade mark right to this product. iC-Haus assumes no liability for any patent and/or other trade
mark rights of a third party resulting from processing or handling of the product and/or any other use of the product.
As a general rule our developments, IPs, principle circuitry and range of Integrated Circuits are suitable and specifically designed for appropriate use in technical
applications, such as in devices, systems and any kind of technical equipment, in so far as they do not infringe existing patent rights. In principle the range of
use is limitless in a technical sense and refers to the products listed in the inventory of goods compiled for the 2008 and following export trade statistics issued
annually by the Bureau of Statistics in Wiesbaden, for example, or to any product in the product catalogue published for the 2007 and following exhibitions in
Hanover (Hannover-Messe).
We understand suitable application of our published designs to be state-of-the-art technology which can no longer be classed as inventive under the stipulations
of patent law. Our explicit application notes are to be treated only as mere examples of the many possible and extremely advantageous uses our products can
be put to.
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