Changes between Initial Version and Version 1 of Hand/280/SystemComponentList


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Timestamp:
May 17, 2011, 7:14:26 PM (14 years ago)
Author:
edison
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  • Hand/280/SystemComponentList

    v1 v1  
     1== Standard BH8-SERIES System Components ==
     2=== The Hand ===
     3The !BarrettHand™, shown in Figure 1, has three fingers labeled F1, F2 and F3.  Two of the fingers, F1 & F2, rotate synchronously and symmetrically about the base joint in a spreading action.  The “spread” motion around the palm allows “on-the-fly” grasp reconfiguration to adapt to varying target object sizes, shapes, and orientations. 
     4
     5Aside from the spread motion, each of the three fingers on the !BarrettHand™ feature two joints driven by a single DC brushless servo motor.  The joints of each finger are coupled through Barrett’s patented !TorqueSwitch™, which automatically switches motor torque to the appropriate finger joint when closing on a target object.  Using the fingers together allows the !BarrettHand™ to "grasp" a wide variety of objects securely.  The !TorqueSwitch™ combined with the spread function, makes object grasping nearly target-independent.
     6
     7The !BarrettHand™, shown in Figure 1, is equipped with a threaded base for compact and secure mounting.  The threaded base is fully compatible with the !BarrettArm. And, with the arm adapter, it can be mounted on virtually any robot with a standard ISO tool plate, for easy installation and maintenance.
     8
     9{{{
     10#!div class="center" align="center"
     11[[Image(htdocs:bhand/figure1.png)]]
     12
     13'''Figure 1: !BarrettHand™'''
     14}}}
     15
     16=== Power Supply ===
     17The BH8-28x power supply shown in Figure 2 is compact and designed to run a hand from a host computer over serial or CAN.  The user should connect all wires which connect to the power supply before turning on power.  A control switch sets RS-232 or CAN mode and accepts control input from the same DB9 connector.  The unit is powered through an AC line cord and provides all the necessary power to the hand.  Internally, an industrial grade power supply called the Synqor !AcuQor provides a semi-regulated 48 V to power the hand.
     18
     19CAUTION:  Do not try to power previous hand models with this power supply because earlier models were limited to 24 V.  Never provide RS-232 signals while in CAN mode because it can cause damage to the electronics.
     20
     21{{{
     22#!div class="center" align="center"
     23[[Image(htdocs:bhand/figure2.png)]]
     24
     25'''Figure 2 - !BarrettHand™ BH8-28x 48-Volt Universal Power Supply'''
     26}}}
     27
     28=== Electrical Cables ===
     29All necessary electrical cables are included in the basic BH8-SERIES System.  The required electrical connections are shown in Figure 2.  An AC Line Cord connects the Power Supply to a wall source.  A DB9 Extension Cable provides the communications connection from a host computer via RS-232 serial or CAN.  A Hand Cable for the particular Power Supply and !BarrettHand™ supply communications, logic power, and motor power.  This cable is durable and flexible, allowing the !BarrettHand™ to be used on any robot with minimal effect on robot performance.  Use the included set of adhesive guide clips for cable management.  Since the control electronics reside inside the !BarrettHand™ itself, no other electrical cabling is required.
     30
     31The typical connection to BH8-280 systems use a Peak USB to CAN adapter that connects to a DB-9 extension cable and the BH8-28x power supply, which is shown in Figure 3.
     32
     33{{{
     34#!div class="center" align="center"
     35[[Image(htdocs:bhand/figure3.png)]]
     36
     37'''Figure 3: USB to CAN Adapter for BH8-280 !BarrettHand™'''
     38}}}
     39=== Lab Bench Stand ===
     40The bench mount stand for the !BarrettHand™, shown in Figure 4, is ideal for off-arm development.  The durable Lexan® stand comes complete with cable management clips and mounting features to hold your !BarrettHand™ unit securely on any flat surface.  Non-slip rubber feet keep the stand from sliding during testing and programming.  A threaded locking ring for base mounting will secure the hand to the stand.
     41
     42{{{
     43#!div class="center" align="center"
     44[[Image(htdocs:bhand/figure4.png)]]
     45
     46'''Figure 4: Lab Bench Stand'''
     47}}}
     48
     49
     50=== Control Software and Firmware ===
     51The BH8-SERIES System control software consists of:
     52        1. !BarrettHand™ Control GUI application and API,
     53        1. Firmware (latest *.tek file), and
     54        1. Example and demo programs.
     55
     56!BarrettHand™ Control GUI
     57The !BarrettHand™ Control GUI is a cross-platform compatible Windows/Linux application that allows control of the !BarrettHand™ quickly and easily.  The !BarrettHand™ Control GUI can be used to demonstrate functionality, test Supervisory and !RealTime control sequences, and how to save those sequences as ASCII text or even as cross-platform compatible C++ code along with a Makefile (literally with the click of a “Generate C++ Code” button).  See the !BarrettHand™ Control GUI Manual for more information on the using this application and the requirements.
     58
     59C++ Function Library
     60The !BarrettHand™ C++ Function Library is an API for programming the !BarrettHand™ using the C++ language on IBM-compatible PC’s without having to manage various communication and timing issues.  The library contains a hand control class that has easy-to-use functions that permit the use of Supervisory and !RealTime commands in software developed by the user.  All of the functions are available when the library and its dependencies are linked to the program.  Dependencies are usually installed by default so the user can focus on development.  The C++ API includes HTML generated documentation that describes all of the classes, variables, and methods that users should use in detail and gives examples.
     61
     62The API is written in C++ and compiled for 32-bit versions of Ubuntu 9.10 and Windows XP.  It is a typical C++ library, providing a class from which you instantiate one BHand object and use it for all communications.  The library uses a multithreaded mechanism for sending commands, which allows both synchronous and asynchronous access to the low-level thread and ensures that all communications are executed with high priority.  The low-level thread manages all input and output buffers and makes controlling the !BarrettHand™ easy.
     63
     64Firmware
     65The !BarrettHand™ has firmware that resides on the control electronics inside the palm.  The firmware is a compiler generated text file that may be uploaded to the hand through the boot loader and the configuration tab in the GUI.  The firmware receives commands, controls the motors, sets and retrieves properties, and reads or writes to the EEPROM.
     66
     67== Maintenance Kit ==
     68Included in each !BarrettHand™ package is a maintenance kit which includes the following:
     69
     70* Mobil 1® synthetic grease lubricant in syringe
     71* Hex Wrench Kit (1.0 mm, 1.27 mm, 2.0 mm, etc.)
     72* 2 mm Hex Driver
     73* Torque wrench
     74* Loctite 222
     75* Tweezers
     76* Pull tool
     77* Finger Angle Fixture
     78* Phillips Head Screwdriver
     79* Flathead Screwdriver
     80* 2 Screws with O-Rings
     81
     82== System Options ==
     83
     84=== Arm adapter ===
     85Barrett Technology provides an arm adapter (Figure 5) matching the make and model of any robot specified by the customer.  This lightweight arm adapter is made to work with the end-effector bolt pattern on your robot, allowing quick, easy mounting and wire management for a BH8-SERIES System.  The arm adapter is bolted to the end of the robot arm and the !BarrettHand™ is secured to the arm adapter with its standard threaded locking ring.  The arm adapter is also equipped with an anti-rotation feature to prevent rotation during operation.
     86
     87{{{
     88#!div class="center" align="center"
     89[[Image(htdocs:bhand/figure5.png)]]
     90
     91'''Figure 5: Arm adapter'''
     92}}}
     93=== Strain gage Joint-Torque Sensors ===
     94Barrett Technology offers a factory-installed torque sensor for the BH8-SERIES System.  This sensor measures the torque externally applied about the distal joint over a range of +/- 1 N-m (+/-2 kg at finger tip is about 20 N @ 5 cm = +/- 1 N-m).  This option uses strain gages to measures the differential tension in the “tendon” running through each finger to the second joint.  The information is processed in additional on-board circuitry when this option is installed; it is accessed by requesting the present strain gage property.  The strain gage property represents the amount strain on the strain gage sensors.  The strain gage values can be calibrated by the customer to relate strain to joint torque.