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Delta Tau MACRO CPU BOARD 4Ax-602804-xHxx Specifications
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Delta Tau MACRO CPU BOARD 4Ax-602804-xHxx offers powerful processing capabilities for motion control applications. With its 80MHz DSP56303 CPU and 512k x 8 flash memory, it provides ample resources for complex control algorithms and data storage. The RS-232 serial interface enables easy setup and debugging, while the stack connectors and UBUS interface allow for flexible expansion with servo and I/O accessory boards. The JTHW multiplexed I/O port with a 26-pin IDC header provides versatile connectivity options.
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^1
HARDWARE REFERENCE MANUAL
^2
MACRO CPU Board
^3 HRM for UMAC MACRO & MACRO Stack
^4 4Ax-602804-xHxx
^5 June 7, 2004
Single Source Machine Control Power // Flexibility // Ease of Use
21314 Lassen Street Chatsworth, CA 91311 // Tel. (818) 998-2095 Fax. (818) 998-7807 // www.deltatau.com
Copyright Information
© 2003 Delta Tau Data Systems, Inc. All rights reserved.
This document is furnished for the customers of Delta Tau Data Systems, Inc. Other uses are unauthorized without written permission of Delta Tau Data Systems, Inc. Information contained in this manual may be updated from time-to-time due to product improvements, etc., and may not conform in every respect to former issues.
To report errors or inconsistencies, call or email:
Delta Tau Data Systems, Inc. Technical Support
Phone: (818) 717-5656
Fax: (818) 998-7807
Email: [email protected]
Website: http://www.deltatau.com
Operating Conditions
All Delta Tau Data Systems, Inc. motion controller products, accessories, and amplifiers contain static sensitive components that can be damaged by incorrect handling. When installing or handling Delta Tau Data Systems, Inc. products, avoid contact with highly insulated materials. Only qualified personnel should be allowed to handle this equipment.
In the case of industrial applications, we expect our products to be protected from hazardous or conductive materials and/or environments that could cause harm to the controller by damaging components or causing electrical shorts. When our products are used in an industrial environment, install them into an industrial electrical cabinet or industrial PC to protect them from excessive or corrosive moisture, abnormal ambient temperatures, and conductive materials. If Delta Tau Data Systems, Inc. products are directly exposed to hazardous or conductive materials and/or environments, we cannot guarantee their operation.
MACRO CPU Board Hardware Reference Manual
Table of Contents
Table of Contents i
MACRO CPU Board Hardware Reference Manual ii Table of Contents
MACRO CPU Board Hardware Reference Manual
INTRODUCTION
The 3U MACRO-CPU board is the processor and MACRO interface board that is used in a 3U MACRO
Station (in either UMAC MACRO or MACRO Stack configuration).
Note:
Three documents describe the operation of Delta Tau Data Systems Inc. 3U
MACRO Station products:
•
•
•
UMAC System Manual (General Product Overview)
3U MACRO Station User’s Manual
3U MACRO Station Software Reference
This manual describes the interfaces and physical hardware that is used on the 3U
MACRO CPU.
The UMAC MACRO and the MACRO Stack provide a remote interface for encoders, flags, direct-PWM digital drives, analog drives, stepper drives, analog I/O, and digital I/O for Delta Tau Data's PMAC products that have a MACRO interface.
The UMAC MACRO and MACRO Stack configurations communicate with PMAC2 Ultralites or Turbo
PMAC2 Ultralites solely through the MACRO ring, interfacing to standard drives, encoders, flags, and
I/O through on-board connectors. This MACRO Station integrated packaging and connectivity strategy provides revolutionary flexibility and ease of use.
A 3U MACRO Station consists of a set of 3U format Euro-cards (100 x 160 mm) that can be assembled in a variety of configurations. When used in the rack configuration, connected through a backplane bus, the backplane is UBUS format, designed by Delta Tau Data Systems Inc. for motion control and I/O interfaces.
When using the fiber optic MACRO interface, the 3U MACRO Station can be up to 3 kilometers (2 miles) away from the PMAC2 controller or any other station on the ring. When using the RJ-45 copper electrical interface, it can be up to 100 meters (~330 feet) away.
The 3U MACRO Station allows PMAC2 MACRO controllers to control servo axes and I/O just as if they were directly connected to the PMAC2, even though they may be a great distance away. The only interface needed from the PMAC2 is the electrically isolated MACRO ring.
•
•
•
•
•
•
Typically, a PMAC2 Ultralite board, one without any of its own servo interface circuitry, is used with the
MACRO Station to provide the most cost-effective solution.
•
3U MACRO-CPU Board (3A0-602804-10x):
80MHz DSP56303 CPU
512k x 8 flash memory for user backup and firmware
Latest released firmware version
RS-232 serial interface for setup and debugging
Stack connectors for servo and I/O accessory boards
UBUS connector for backplane connection to servo and I/O accessory boards
•
JTHW multiplexed I/O port with 26-pin IDC header
Introduction 1
MACRO CPU Board Hardware Reference Manual
The 3U MACRO Station can be configured in either of two fundamental assemblies – UMAC MACRO and MACRO Stack:
• UMAC MACRO – In this configuration (once called Pack) the
3U-format boards are put together to communicate through a backplane bus called the UBUS. All boards are installed in a
Euro-card rack. In this configuration, all 3U-format boards or modules can be installed or withdrawn from the pack individually, providing ease of installation, debugging, and repair.
The photo at the upper right shows a UMAC rack with power supply and I/O boards that are connected through a backplane. This system allows for an easier integration of the 3U MACROCPU for larger (up to 8 axes) applications.
•
MACRO Stack – In the Stack configuration the 3U-format boards are put together as a stack of piggyback boards, (right, below). This configuration is ideal for compact, cost-sensitive embedded applications.
Note:
The Stack boards and related breakout boards can be installed in a Euro-card rack, creating a hybrid “stack/pack” configuration. This requires a special backplane configuration that makes removing stack boards difficult.
This hybrid configuration is now recommended for existing legacy systems only.
3U Product Configurations (General Description)
Assemblies of 3U-format boards can be made with either of two CPU processor boards – a 3U
MACRO CPU board, or a 3U Turbo PMAC2 CPU board. Most other 3U-format boards, labeled
Accessory boards, can be used with either CPU board.
•
When the 3U MACRO-CPU board is used, the resulting assemblies are called UMAC MACRO or
3U MACRO Stack.
•
When the 3U Turbo PMAC2 CPU board is used, the resulting assemblies are called UMAC Turbo or
Turbo Stack.
Refer to the UMAC and 3U Stack Products Selection Guide for more detailed descriptions of how the rack and stack products are integrated.
2 Introduction
MACRO CPU Board Hardware Reference Manual
MACRO CPU Specifications
Physical Specifications
Size:
Weight:
Temperature
Operating:
Storage:
Humidity:
16cm x 10cm x 3.6cm (6.3" x 3.95" x 1.4")
½ lb.
0°C to 60°C (32°F to 140°F)
12°C to 82°C (10°F to 180°F)
10% to 95%, non condensing
Electrical Specifications
Power: 1.5A @ +5V (±5%) (7.5W) Pertains to 8-channel configuration with a typical load of encoders.
Introduction 3
MACRO CPU Board Hardware Reference Manual
4 Introduction
MACRO CPU Board Hardware Reference Manual
CONFIGURATION AND HARDWARE SETUP
The purchase of the 3U MACRO CPU board provides a 3U-format (100mm x 160mm) board with a DSP processor, MACRO ring circuitry, piggyback connectors onto which stack accessory boards can be mounted, and a backplane connector through which other 3U-format boards can be connected by means of a UBUS passive-backplane board.
The MACRO CPU board went through an extensive redesign in the –105 revision, because key components on the –104 and older revisions became obsolete. Both the older and the newer versions are described in this manual. The only system change required is a slight change in the DIP-switch addressing of Acc-24E2x and Acc-51E backplane axis boards when using the new MACRO CPU boards.
Note:
It is recommended that only the new MACRO CPU boards, which have stronger backplane bus drivers, be used in UMAC pack configurations.
The 3U MACRO-CPU can be purchased in two physical configurations, distinguished by part number prefix:
• 300-602804-10x provides the 3U MACRO-CPU board without a front plate. This configuration is recommended for stack assemblies.
•
3R0-602804-10x provides the 3U MACRO-CPU board with a front plate. This configuration is recommended for UMAC rack assemblies. The top and bottom plates are provided with the Acc-Px rack.
There are a few options available for the MACRO CPU board. One of the Options A or C must be present on a MACRO CPU board to provide the actual MACRO ring interface circuitry; both may be present:
Option A provides an SC-style fiber-optic transceiver to connect into the MACRO ring. Its main component is the U73 transceiver.
Option C provides RJ-45 electrical input and output connectors for the MACRO ring. Its main components are J14 and J17.
Option 10 permits a specified revision of the MACRO Station firmware to be installed in the flash memory in the card. Without this option, the latest released revision is installed. A label on the flash memory IC indicates the firmware revision installed at the factory (but not necessarily which revision is presently installed in the IC). The presently installed revision can be ascertained by using the
MSVER{node #} command.
Board Hardware Setup
The hardware setup of the 3U MACRO CPU Board consists of the setting of two rotary switches, the setting of several E-point jumpers on each board, followed by power supply and signal connections.
Note:
E-Point Jumper numbers are shown in white ink on the legend of each board. Pin numbers for each number can be determined either from the legend on the component side on the board, or by looking at the solder side of the board, where pin 1 has a square solder pad.
Configuration and Hardware Setup 5
MACRO CPU Board Hardware Reference Manual
Board Jumper and Switch Setup
The MACRO Station has two 16-way rotary switches on the MACRO CPU board that establish the station’s basic configuration on the MACRO ring.
SW1 Rotary Switch Setting: SW1 establishes how many servo nodes, and which servo nodes, will be used on the MACRO station. It also establishes the mapping of MACRO node numbers to MACRO
Station channel numbers. This mapping information will be important in establishing the software setup.
The following table shows possible MACRO Station axis configurations and the appropriate settings of
SW1:
# of Servo
Channels and
Nodes Used
Which MACRO
Servo Nodes Used
Stack Axis
Boards Used
Backplane (UMAC) Axis
Boards Used
SW1 Setting
2
2
2
2
4
2 0, --
2 4, --
2
2
8, 9
12, 13
1x Acc-1E --
1x Acc-1E --
0, 1
4, 5
8, 9
12, 13
0, 1, 4, 5
1x Acc-2E*
1x Acc-2E*
1x Acc-24E2x or 51E
1x Acc-24E2x or 51E
1x Acc-2E* 1x Acc-24E2x or 51E
1x Acc-2E* 1x Acc-24E2x or 51E
1x Acc-2E 1x Acc-24E2x with Option 1x or 1x
Acc-51E with Option 1
8
9
10 ($A)
11 ($B)
2
3
4
5
0
4
6
6
8, 9, 12, 13
0, 1, 4, 5, 8, 9
0, 1, 4, 5, 8, 9
1x Acc-2E 1x Acc-24E2x with Option 1x or 1x
Acc-51E with Option 1
1x Acc-1E,
1x Acc-2E
1x Acc-24E2x with Option 1x or 1x
Acc-51E with Option 1;
Plus 1x Acc-24E2x or 51E
2x Acc-2E* 1x Acc-24E2x with Option 1x or 1x
Acc-51E with Option 1;
Plus 1x Acc-24E2x or 51E
1
12 ($C)
6
8 0, 1, 4, 5, 8, 9, 12, 13 2x Acc-2E 2x Acc-24E2x with Option 1x /
Acc-51E with Option 1
7
More detailed information on the SW1 settings is presented in the Jumper/Switch description in the back of this manual.
SW2 Rotary Switch Setting: SW2 establishes the number of the master IC to which the MACRO station will respond. The values of 0 to 15 correspond to Master numbers 0 to 15, respectively. For a non-Turbo PMAC2 master, this value must match the master number value in the first hexadecimal digit of PMAC2’s I996. For a Turbo PMAC2, this value must match the master number value in the first hexadecimal digit of the Turbo PMAC2’s I6840, I6890, I6940, or I6990, for MACRO ICs 0, 1, 2, or 3, respectively, on the Turbo PMAC2. The default switch setting is 0, so the station will respond to Master
0.
Watchdog Timer Enable Jumper: For normal operation of the Compact MACRO Station, jumper
E1 should be OFF to enable the watchdog timer (an important safety feature).
Operational Mode Jumper: Jumper E2 should connect pins 2 and 3 to tell the CPU it is in normal operational mode, not in bootstrap mode. It should only connect pins 1 and 2 to load new firmware into the flash IC through the serial port.
Baud Rate Jumper: Jumper E3 must be ON if you are connecting an Acc-8D Option 9 Yaskawa absolute encoder converter to the J7 serial port (most users will connect it to the JTHW port instead).
This sets the baud rate to 9600. If E3 is OFF, the baud rate is 38400.
6 Configuration and Hardware Setup
MACRO CPU Board Hardware Reference Manual
Power Supply Check Jumper: Remove jumper E4 if you are not bringing a +/-12V to +/-15V supply into the Compact MACRO Station itself (5V only). If bringing these analog circuit supplies into the
Compact MACRO Station, it is best to have jumper E4 on, so that the servo outputs are disabled if either of the analog supplies is lost.
MACRO Input Select Jumper: Because the MACRO CPU board can potentially accept MACRO ring input from either the RJ-45 electrical input or the fiber input, select which input is used (even if only one of the ring interface options is present). Jumper E40 must be ON to use the fiber input; it must be OFF to use the electrical input. (If both interface options A and C are present, either ring output may be used, regardless of the setting of E40.)
MACRO Signal-Loss Detect Jumper: Jumper E5 (board revisions –105 and newer only) should connect pins 1 and 2 so that the MACRO receiver’s (fiber or electrical) loss-of-signal detect is reported automatically as a byte violation error. Older revisions (-104 and before) of the board could not use the receiver’s signal-loss detect as a violation error (relying on higher-level detection schemes), and connecting pins 2 and 3 makes operation of the new revision completely compatible with the old. This is not recommended.
Board Connections
The connection of Compact MACRO Station to other stations on the MACRO ring is achieved by connecting the output connector of the Compact MACRO Station to the input connector of the next station and by connecting the output connector of the previous station to the input connector of the
Compact MACRO Station. There must be a completely connected ring, with all stations powered up, for any communications to occur on the ring.
Optical Fiber Ring Connection: The U73 integrated fiber optic transceiver is used for both the optical fiber input and the optical fiber output connections to the MACRO ring. With the component side of the board up, and the opening facing you, the input socket is on the right, and the output socket is on the left
(these are marked on the component).
RJ45 Electrical Ring Connection: The J14 connector is used for the input from the previous station on the MACRO ring if electrical connection is used, and the J17 connector is used for the output to the next station on the MACRO ring.
Multiplexer Port: The J6 26-pin header is used to connect to multiplexer port accessories such as the
Acc-8D Option 7 resolver-to-digital converter board and the Acc-8D Option 9 Yaskawa absolute encoder interface board. This port can be used alternately to provide eight inputs and eight outputs (nonmultiplexed) at TTL levels.
Backplane UBUS Expansion Port: The P2 96-pin DIN header is used to connect to expansion port accessories such as the Acc-9E, 10E, 11E, 12E, and 14E I/O boards, or the Acc-24E2x axis boards, through an Acc-Ux UBUS backplane board. It can also be used to bring in 5V power, and optionally +/-
15V power, from a backplane or breakout board, to the entire MACRO Station.
Note:
When interfacing to accessory boards across the UBUS backplane, it is strongly recommended to use a new revision (-105 or higher) of the MACRO CPU board, and an Acc-Ux backplane board (not an older Acc-Jx backplane board). The newer revision MACRO CPU boards have stronger bus driver ICs, but they do not work well with the termination of the Acc-Jx backplane boards.
Power Terminal Block: The TB1 4-point terminal block can be used to bring in 5V power, and optionally +/-15V power, to the entire MACRO Station. In a UMAC (pack) configuration, the power is more likely to be brought in through the backplane.
Configuration and Hardware Setup 7
MACRO CPU Board Hardware Reference Manual
8 Configuration and Hardware Setup
MACRO CPU Board Hardware Reference Manual
JUMPER AND SWITCH CONFIGURATIONS
Card Layout
The Location columns of the following tables refer to the mapped locations shown in the drawings below:
Note:
Pin 1 of an E-point is masked by an X in white ink on the composite side and by a square solder pad on the solder side.
Jumper and Switch Configurations 9
MACRO CPU Board Hardware Reference Manual
E1: Watchdog Timer Disable
Rev –105 and
Later Location
Rev –104 and
Earlier Location
B-1 F-1
Jumper
Type
Description Default
2-Pin Remove jumper to enable Watchdog Timer. Not jumpered
Jump pins 1 and 2 to disable Watchdog Timer
(for test purposes only).
E2: CPU Mode Operation
Rev –105 and
Later Location
D-2
Rev –104 and
Earlier Location
D-1
Jumper
Type
Description Default
3-Pin Jump pins 1 and 2 for firmware download through serial port.
Pin 2-3
Jump pins 2 and 3 for normal operation.
E3: Serial Port Baud Rate
Rev –105 and
Later Location
E-3
Rev –104 and
Earlier Location
E-2
Jumper
Type
Description Default
2-Pin Jump pins 1 and 2 for 9600-baud serial port operation. (Required for Yaskawa interface).
Remove jumper for 38400-baud serial port operation.
Not jumpered
E4: Power Supply-Loss Control (±15Vdc Supply Monitor)
Rev –105 and
Later Location
E-3
Rev –104 and
Earlier Location
E-2
Jumper
Type
Description Default
2-Pin Jump pins 1 and 2 to disable servo outputs on loss of +5V, +15V, or –15V power supply.
Remove this jumper to monitor +5Vdc power supply only.
±15V supply monitoring is not usually required for applications without DACs or A-D converters.
Not jumpered
E5: MACRO Received Signal Detect/Bypass Mode (Rev -105 and 106 only)
Does not Exist on Rev 107 and Later Models
Rev –105 and
Later Location
B-3
Rev –104 and
Earlier Location
Jumper
Type
Description Default
3-Pin Jump pins 1 and 2 to access the receiver’s signal detect operation.
Pin 1-2
Jump pins 2 and 3 to bypass the receiver’s signal detect operation.
This jumper does not exist on MACRO-CPU versions -104 and earlier.
10 Jumper and Switch Configurations
MACRO CPU Board Hardware Reference Manual
E40: MACRO Input (Fiber/Wired) Selector
Rev –105 and
Later Location
B-3
Rev –104 and
Earlier Location
C-3
Jumper
Type
Description Default
2-Pin Remove jumper to select MACRO wired
(RJ45) input from J14.
Jumpered
(Option A)
Jump pins 1 and 2 to select MACRO fiber optic input from U73.
Not jumpered
(Option C)
JP3: MACRO Loop Back Test Select for Copper only (Rev -104 and Earlier)
Rev –105 and
Later Location
Rev –104 and
Earlier Location
B-1
Jumper
Type
Description Default
2-Pin Remove jumper to select loop back in the copper interface of MACRO communications
(for test purposes only).
Pin 1-2
Jump pins 1 and 2 for normal copper MACRO communications.
This jumper does not exist on MACRO-CPU versions 105 and greater.
JP4: Reserved for Future Use
JP5-JP6: MACRO Copper EQ Select (Rev -104 and Earlier)
Rev –105 and
Later Location
Rev –104 and
Earlier Location
B-1
Jumper
Type
Description Default
2-Pin These jumpers are used to select different modes of equalization when copper-based communications are used.
Not jumpered
When not jumpered, adaptive equalization is used. JP5 and JP6 are used for manufacturer's testing only.
These jumpers do not exist on MACRO-CPU versions - 105 and greater.
Jumper and Switch Configurations 11
MACRO CPU Board Hardware Reference Manual
Switch Configurations
SW1: MACRO Slave Node Configure
SW1 Setting # of Servo Channels and Nodes Used
MACRO Servo
Nodes Specified
0 (default) 4 0, 1, 4, 5
1 4 8, 9, 12, 13
Station
Channel Nos.
1, 2, 3, 4
1, 2, 3, 4
Station Channel
Starting Addresses
$C000, $C008, $C010, $C018*
$C000, $C008, $C010, $C018*
7
8
9
10
11
12
2
3
4
5
6
2
2
2
2
6
2
2
2
2
6
8
0, 1
4, 5
8, 9
12, 13
0, 1, 4, 5, 8, 9
0, 1, 4, 5, 8, 9, 12,
13
0, 1
1, 2
3, 4
1, 2
3, 4
1, 2, 3, 4, 5, 6, 7,
8
9, 10
$C000, $C008*
$C010, $C018*
$C000, $C008*
$C010, $C018*
1, 2, 3, 4, 5, 6 $C000, $C008, $C010, $C018,
$C020, $C028*
$C000, $C008, $C010, $C018,
$C020, $C028, $C030, $C038*
$C090, $C098
4, 5
8, 9
9, 10
9, 10
$C090, $C098
$C090, $C098
12. 13 9, 10 $C090, $C098
0, 1, 4, 5, 8, 9 1, 2, 3, 4, 9, 10 $C000, $C008, $C010, $C018,*
$C090, $C098
None
14
15 *** 0 11
(Reserved For Future Use)
-
* These addresses are for stack axis boards. Add $40 to these addresses for backplane axis boards.
-
** Other bits of this I-variable may also be set to enable I/O nodes or other slave stations it is commanding
*** A setting of 15 forces the station to use its factory default I-variables on power-up/reset.
SW1
Setting
First Axis
Board Servo IC
Second Axis
Board Servo IC
PMAC2’s I996 Value
** (Turbo PMAC2’S
I6840, etc.
PMAC2’s I1000, I1002
Value (Turbo PMAC2’s
I70, I71, etc.)
0 (default) 4-axis None $F8033
1 4-axis None $FB300
2 4-axis None $F8003
3 4-axis None $F8030
4 4-axis None $F8300
5 4-axis None $FB000
6 4-axis 4-axis $F8333
7 4-axis 4-axis $FB333
8 2-axis None $F8003
9 2-axis None $F8030
10 2-axis None
11 2-axis None
$F8300
$FB000
12 4-axis 2-axis $FB333
13 None None $F8000
14
15*** -
(Reserved For Future Use)
- $F8800
$0033
$3300
$0003
$0030
$0300
$3000
$0333
$3333
$0003
$0030
$0300
$3000
$0333
$0000
-
* These addresses are for stack axis boards. Add $40 to these addresses for backplane axis boards.
** Other bits of this I-variable may also be set to enable I/O nodes or other slave stations it is commanding
*** A setting of 15 forces the station to use its factory default I-variables on power-up/reset.
12 Jumper and Switch Configurations
MACRO CPU Board Hardware Reference Manual
SW2: MACRO Master Number Select
0: Commanded from Master IC # 0
1: Commanded from Master IC # 1 …
F: Commanded from Master IC # F (15)
Connector Summary
J1: ~* JEXP_A: for interboard connection
J2: ~* JEXP_B: for interboard connection
J3: ~* JEXP_C: for interboard connection
J4: ~* JISP: Factory configuration header
J5: ~* JTAG/OnCE: Factory troubleshoot header
J6:
J7:
JTHW: Multiplexer Port Connector
JRS232: Serial Port Connector
J14, J17: RJ45: MACRO Copper I/O (OPT C)
P1: JEXP: Backplane Expansion Port Connector
TB1:
U73:
JPWR: 4-Pin Terminal Block
MACRO Fiber Optic Connector (OPT A)
* Typically, these connectors are not designated as end-user interfaces. The pinouts are not included in this hardware reference manual. Consult the factory if pinout information is needed.
Jumper and Switch Configurations 13
MACRO CPU Board Hardware Reference Manual
14 Jumper and Switch Configurations
MACRO CPU Board Hardware Reference Manual
MACRO STATION CHARACTER DISPLAY
The Compact MACRO Station has a single hexadecimal character display on the CPU/Interface Board that provides useful information as to the status of the station. The display can show the following values:
Value Meaning
(Blank) Ring not active
0-8 Operation OK; value is # of motors enabled
9 (Reserved for future use)
A Amplifier fault
B Ring break fault
D Ring data error
Hardware Re-Initialization
MACRO hardware re-initialization to factory defaults is enabled when the SW1 setting is set to 15 or F
(hexadecimal) and the power is cycled at the MACRO Station. Possibly the only time to use a hardware re-initialization to factory defaults would be if the MACRO Station always powers up with a watchdog
(typically if the ring clock at the Ultralite is different than the ring clock at the MACRO Station). Node
11 will be the only MACRO Station node enabled. Therefore, enable node 11 of the MACRO IC at the
Ultralite to communicate to the MACRO Station.
Ultralite Example: Servo nodes 0,1,4,5 enabled at Ultralite (I996=$0F8033)
1. Enable node 11, I996=$0F8833.
2. Re-establish communications with MS11, (MIvar) commands.
3. Issue 11 to ensure re-initialization.
4. Issue command to save the factory defaults to the Station.
Turbo Ultralite Example: Servo nodes 0,1,4,5 enabled at Ultralite (I6841=$0F8033)
1. Enable node 11, I996=$0F8833.
3. Issue 11 to ensure re-initialization.
4. Issue command to save the factory defaults to the Station.
MACRO Station Character Display 15
MACRO CPU Board Hardware Reference Manual
16 MACRO Station Character Display
MACRO CPU Board Hardware Reference Manual
FIRMWARE UPDATES
Downloading new firmware to the MACRO Station is a simple process once the MACRO board is setup properly. To download new firmware to the MACRO station, the user must have the following items:
•
•
•
•
•
5V power supply
2 jumpers
DB9 female to 10 pin header (any cable used for PMAC RS232 communications)
PC at the DOS prompt.
New firmware and necessary downloading batch files
Make sure to power down the MACRO Station.
•
•
To download the software to the MACRO station, first jumper the following E2 (1-2) and E1 (1-2).
Wire the 5V power to the appropriate terminal on the MACRO station or plug into 3U Rack.
•
Place the 10-pin header cable to the serial connection on the MACRO-station and place the other end to the COM1 port on the PC (the batch files were written for COM1 but could be modified if necessary).
•
Go to the DOS prompt and create a directory called firmware and station (as an example).
C:\firmware\station a:\copy *.* c:\firmware\station
Go back to the c drive and type the following command c:\firmware\station\mcdwnld
The firmware will be down loaded to the MACRO station.
The PMAC Executive Software will soon have the capability of downloading the MACRO Station firmware in the Windows Operating Environment.
Place jumper E2 back to pins 2-3 and remove E1 jumper
Call the factory if you have any questions.
Firmware Updates 17
MACRO CPU Board Hardware Reference Manual
18 Firmware Updates
MACRO CPU Board Hardware Reference Manual
CONNECTOR PINOUTS
The schematic circuits shown in this section are for interface reference only. Subtle differences may exist between the circuits shown here and the actual hardware used.
J6: (JTHW) Multiplexer Port Connector
(26-pin head at Location D-3)
Pin # Symbol Function Description
1 GND Common Common
8
9
10
11
2 GND Common Common
3 DAT0 In/Out Data Byte Bit 0
4
5
6
7
SEL0
DAT1
SEL1
DAT2
In/Out
In/Out
In/Out
In/Out
Select Byte Bit 0
Data Byte Bit 1
Select Byte Bit 1
Data Byte Bit 2
SEL2
DAT3
SEL3
DAT4
In/Out
In/Out
In/Out
In/Out
Select Byte Bit 2
Data Byte Bit 3
Select Byte Bit 3
Data Byte Bit 4
12
13
14
15
16
17
SEL4
DAT5
SEL5
DAT6
SEL6
DAT7
In/Out
In/Out
In/Out
In/Out
In/Out
In/Out
Select Byte Bit 4
Data Byte Bit 5
Select Byte Bit 5
Data Byte Bit 6
Select Byte Bit 6
Data Byte Bit 7
18 SEL7
19 N.C.
In/Out Select Byte Bit 7
20 GND Common Common
21 BRLD/ Output Buffer Request
22 GND Common Common
23 IPLD/ Output In Position
24 GND Common Common
25 +5V Output +5VDC Supply
26 INIT/ Input PMAC Reset
Front View
Notes
Must be in for MUX
Must be out for MUX
Must be in for MUX
Must be out for MUX
Must be in for MUX
Must be out for MUX
Must be in for MUX
Must be out for MUX
Must be in for MUX
Must be out for MUX
Must be in for MUX
Must be out for MUX
Must be in for MUX
Must be out for MUX
Must be in for MUX
Must be out for MUX
Low is Buffer Request
Low is In Position
Power supply out
Low is Reset
Connector Pinouts 19
MACRO CPU Board Hardware Reference Manual
Circuitry for J6- JTHW Interface
J7: (JRS232) Serial Port Connector
(10-pin Header at Location C-1)
Pin # Symbol Function Description
Front View
Notes
Just tied to DSR 2 DTR Data Terminal Ready
3 TXD/
4 CTS Input
5 RXD/ Input
Send Data
Clear to Send
Receive Data
Transmit data to host
Host ready bit
Receive data from host
6 RTS Output Request to Send
7 DSR Data Set Ready
8
10
PMAC ready bit
Just tied to DTR
N.C. Output No Connection
+5V
Common
Output +5Vdc Supply Power supply out
20 Connector Pinouts
MACRO CPU Board Hardware Reference Manual
Circuitry for J7- JRS232 Interface
J14, J17: MACRO Copper I/O (Opt C)
(8 pin RJ45)
Pin #
1
Symbol
DATA+
Front View
Function Description
Data +
Notes
Differential MACRO Signal. J17: DATA+ input.
J14: DATA+ output.
2
3
4
5
6
DATA-
Unused
Unused
Unused
Unused
Data - Differential MACRO Signal J17: DATA- input.
J14: DATA- output.
Unused terminated pin
Unused terminated pin
Unused terminated pin
Unused terminated pin
See schematic below.
See schematic below.
See schematic below.
See schematic below.
7
8
Unused
Unused
Unused terminated pin
Unused terminated pin
See schematic below.
See schematic below.
The cable used for MACRO wired connections is CAT5 verified straight-through 8 conductor.
Connector Pinouts 21
MACRO CPU Board Hardware Reference Manual
P1: UBUS Interface Connector
(96 pin EURO-Connector at F-1, 2, 3, 4)
Front View on MACRO-CPU Card
Pin # Row A Row B Row C
1 +5Vdc
2 GND
3 BD01
4 BD03
5 BD05
6 BD07
7 BD09
8 BD11
9 BD13
10 BD15
11 BD17
12 BD19
13 BD21
14 BD23
15 BS1 (GND)
16 BA01
+5Vdc
GND
DAT0
SEL0
DAT1
SEL1
DAT2
SEL2
DAT3
SEL3
DAT4
SEL4
DAT5
SEL5
DAT6
SEL6
17 BA03
18 BX/Y
DAT7
SEL7
19 CS3- BA06
20
23
BA05 (CS7-)
21 CS12-
22 CS16- BA09
BA13 (n.c.)
24 BRD-
BA07 (n.c.)
BA08
BA10 (n.c.)
BA11
+5Vdc
GND
BD00
BD02
BD04
BD06
BD08
BD10
BD12
BD14
BD16
BD18
BD20
BD22
BS0 (GND)
BA00
BA02
CS2
CS4- (CS6-)
CS10
CS14
BA12 (n.c.)
BWR
25 BS3 (GND) MEMCS0- (n.c.) BS2 (GND)
26 n.c. MEMCS1- RESET
27 PHASE+ n.c. SERVO+
29 GND n.c. n.c.
31 GND GND
GND
+15Vdc
GND
32 +5Vdc +5Vdc +5Vdc
1. Refer to the UBUS Specification for detailed signal descriptions. This interface is not VME bus compatible.
2. Items shown in parentheses represent pin descriptions for -104 and earlier revision MACRO-CPU boards.
TB1: (JPWR) 4-Pin Terminal Block
(Location B-4)
Pin #
1
2
3
4
Symbol Function
GND
Description
Common Reference Voltage
+5V
+15V
-15V
Input
Input
Input
Notes
Positive Supply Voltage Supplies all PMAC digital circuits
Positive Supply Voltage +12V to +15V; used for on-board analog
Negative Supply Voltage -12 to –15V; used for on-board analog
22 Connector Pinouts
MACRO CPU Board Hardware Reference Manual
U73: MACRO Fiber Optic Connector (Option A)
(2 Socket SC-Style)
Pin # Symbol Function Description
Front View
Notes
1 RX Fiber Input MACRO Ring Receiver
2 TX Fiber Output MACRO Ring Transmitter
A. The fiber optic version of MACRO uses 62.5/125 multi-mode glass fiber optic cable terminated in an SC-style connector. The optical wavelength is 1,300nm.
B. It is possible to adapt wire to fiber operation when using OPT A & C on the same MACRO-CPU board.
Connector Pinouts 23
MACRO CPU Board Hardware Reference Manual
24 Connector Pinouts
MACRO CPU Board Hardware Reference Manual
HARDWARE MEMORY MAP
The values in this table represent the hardware locations associated with register-based transactions that occur in the 3U MACRO-CPU.
Description
CS00-
CS02-
CS04-
CS06-
CS0-
CS1-
$FFC0
$FFC8
$FFD0
$FFD8
$C000
$C020
Stack I/O select #1
Stack I/O select #2
Stack I/O select #3
Stack I/O select #4
Stack axis 1-4 select
Stack axis 5-8 select
MEMCS0-
MEMCS1-
$D000
$E000
UBUS hardware I/O field (was DPRCS-)
UBUS hardware I/O field (was VMECS-)
The addressing field size is 16-bits in the 3U MACRO-CPU. The address table above is similar to the
PMAC2 product line.
Hardware Memory Map 25
MACRO CPU Board Hardware Reference Manual
26 Hardware Memory Map
MACRO CPU Board Hardware Reference Manual
ACCESSORIES
Both the Turbo and the MACRO CPU boards can support either the Stack or the UMAC configuration.
The systems are configured modularly with the selection of a series of accessory boards, some appropriate for the Stack, and some appropriate for the UMAC. These accessories are listed here. Each has its own manual for detailed description.
The following table shows 3U products by function:
MACRO CPU Board
Options
Stack Piggyback
Accessory Boards
UMAC Backplane-
Mountable Accessory
Boards –Axis
UMAC Backplane-
Mountable Accessory
Boards –I/O
UMAC Backplane-
Mountable Accessory
Boards –
Communication
UMAC Backplane-
Mountable Accessory
Boards – Miscellaneous
Board must be ordered with either Option A or Option C.
Acc-1E, 2-Axis Interface
Stack Board (UMAC
MACRO only), 3x0-602810-
Out Stack Board, 3x0-
602872-10x
Acc-24E2, 2-Axis Digital
PWM, 3x0-603397-10x
Option 1A, Additional 2-Axis
Analog, 3A1-603398-10x
Acc-3E1, 48/96/144 I/O,
3x0-603359-10x
Acc-11E, Isolated 24-In/24-
Out Board, 3x0-603307-10x
Acc-55E, (UNET)
Universal Field Bus Adapter
Network Card, 3x0-603485-
10x
Option A, fiber-optic connectors
Acc-2E, 4-Axis Interface
Stack Board, 3x0-602805-
10x
Acc-6E, 8/16-Channel 12-Bit
ADC Stack Board,
3x0-602810-10x
Option 1D, Additional 2-
Axis Digital PWM, 3D1-
603397-10x
Acc-24E2S, 4-Axis Stepper,
3x0-603441-10x
Acc-9E, 48 In, 3x0-603283-
10x
Acc-12E, Isolated 24-In/24-
Hi-Power-Out Board,
3x0-603277-10x
Acc-28E, 16-Bit A/D,
3x0-603404-10x
Acc-53E, SSI, 3x0-603360-
10x
Acc-36E, A/D, D/A
Converter, 3x0-603483-10x
Acc-56E, Extender Card,
300-603401-10x
Option C, RJ-45 electrical
MACRO connectors
Acc-3E, 48/96/144 TTL I/O
Stack Board, 3x0-602811-
10x
Acc-24E2A, 2-Axis Analog,
3x0-603398-10x
Acc-10E, Isolated 48-Output
Board, 3x0-603299-10x
Acc-14E, 48 I/O,
3x0-603472-10x
Acc-51E, X 4096
Interpolator,
3x0-603438-10x
Acc-57E, Yaskawa or
Mitsubishi ABS, Encoder
Unit, 3x0-603484-10x
UBUS Backplane
Boards
Acc-58E, R/D Converter,
16 Bit, 3x0-603482-10x
Acc-U4, UBUS 4-Slot
Backplane, 300-603462
Acc-U10, UBUS 10-Slot
Backplane, 300-603464-10x
Acc-U16, UBUS 16-Slot
Backplane, 300-603471-10x
Acc-U6, UBUS 6-Slot
Backplane,
300-603403-10x
Acc-U12, UBUS 12-Slot
Backplane, 300-603465-10x
Acc-U18, UBUS 18-Slot
Backplane, 300-603491-10x
Acc-U8, UBUS 8-Slot
Backplane,
300-603463-10x
Acc-U14, UBUS 14-Slot
Backplane, 300-603466-10x
Accessories 27
MACRO CPU Board Hardware Reference Manual
Amplifiers – Analog
±10VDC Input (Brush
Motors)
Amplifiers – Digital
PWM Input (brushless)
Power Supplies – DC
Input
Power Supplies – AC
Input
UMAC Chassis
Assemblies (Rack)
Hybrid Stack/Pack
Accessories (Legacy
Systems Only)
4-Axis Analog ± 10V Input
Linear Amplifier, 24VDC,
0.5/1A, 300-603489-10x
Backplane, Double Analog
Amplifier, 300-603470-10x
Backplane, Single Analog
Amplifier, 300-603490-10x
2-Axis Digital PWM Amplifier, 2-Axis Digital PWM/Macro
360VDC, 4/8A, 400-603391-
10x
Single-Axis Digital PWM
Amplifier, 360VDC, 8/16A,
401-603492-10x
Acc-F, 3U DC to DC
Converter, 10A,
30F-603216-OPT
Acc-E, 3U AC Power Supply,
8A, 30E-603269-OPT
3U Rack, 10-1/2 Slot (42T)
542-602932-10x
4-Axis Analog ± 10V Input
PWM Amplifier, 48VDC,
2/4A, 300-603443-10x
Amplifier, 360VDC, 8/16A,
400-603392-10x
Power Supply for 3U Digital
PWM Amplifiers,
400-603428-10x
Acc-E1, 3U AC Power Supply,
14A, 31E-603269-OPT
3U Rack, 15-3/4 Slot (63T)
563-602932-10x
4-Axis Analog ± 10V Input
PWM Amplifier, 70VDC,
8/12A, 300-603486-10x
Single Axis Digital
PWM/Macro Amplifier,
360VDC, 8/16A,
401-603391-10x
Backplane, Digital PWM,
300-603435-10x
Acc-E2, AC Power Supply,
20A, 32E-603468-OPT
3U Rack, 21 Slot (84T)
584-602932-10x
3U Rack, Variable Width per
Customer Requirements
(custom design) , 500-602932-
Acc-8DE, 2-Axis 3U Analog-
Output Breakout Board,
3x0-603215-10x
Acc-8FE, 2-Axis 3U Digital-
Output Breakout Board,
3x0-603176-10x
ACC13A, Flag Terminal Block Acc-13B, Amplifier Terminal
Board, 300-603366-10x Block Board, 300-603367-10x
Acc-13, Encoder Terminal
Block Board, 300-603365-10x
Acc-15E, Isolated 12-In/12-
Out Opto22 Driver &
Breakout Board, 300-603488-
28 Accessories
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Table of contents
- 5 INTRODUCTION
- 6 3U Product Configurations (General Description)
- 7 MACRO CPU Specifications
- 7 Physical Specifications
- 7 Electrical Specifications
- 9 CONFIGURATION AND HARDWARE SETUP
- 9 Board Hardware Setup
- 10 Board Jumper and Switch Setup
- 11 Board Connections
- 13 JUMPER AND SWITCH CONFIGURATIONS
- 13 Card Layout
- 14 E1: Watchdog Timer Disable
- 14 E2: CPU Mode Operation
- 14 E3: Serial Port Baud Rate
- 14 E4: Power Supply-Loss Control (±15Vdc Supply Monitor)
- 14 E5: MACRO Received Signal Detect/Bypass Mode (Rev -105 and 106 only)
- 15 E40: MACRO Input (Fiber/Wired) Selector
- 15 JP3: MACRO Loop Back Test Select for Copper only (Rev -104 and Earlier)
- 15 JP4: Reserved for Future Use
- 15 JP5-JP6: MACRO Copper EQ Select (Rev -104 and Earlier)
- 16 Switch Configurations
- 16 SW1: MACRO Slave Node Configure
- 17 SW2: MACRO Master Number Select
- 17 Connector Summary
- 19 MACRO STATION CHARACTER DISPLAY
- 19 Hardware Re-Initialization
- 21 FIRMWARE UPDATES
- 23 BOARD CONNECTOR PINOUTS
- 23 J6: (JTHW) Multiplexer Port Connector
- 24 J7: (JRS232) Serial Port Connector
- 25 J14, J17: MACRO Copper I/O (Opt C)
- 26 P1: UBUS Interface Connector
- 26 TB1: (JPWR) 4-Pin Terminal Block
- 27 U73: MACRO Fiber Optic Connector (Option A)
- 29 HARDWARE MEMORY MAP
- 31 ACCESSORIES