User Manual
Table Of Contents
- Bluetooth® RF Transceiver 750-644
- 1 Important Comments
- 2 I/O Modules
- 2.1 Special Modules
- 2.1.1 750-644 [Bluetooth® RF Transceiver]
- 2.1.1.1 View
- 2.1.1.2 Description
- 2.1.1.3 Indicators
- 2.1.1.4 Schematic Diagram
- 2.1.1.5 Technical Data
- 2.1.1.6 Function Description
- 2.1.1.7 Operating Modes
- 2.1.1.8 Process Image
- 2.1.1.8.1 Process Data Communication
- 2.1.1.8.2 Mailbox Communication
- 2.1.1.8.3 Register Communication
- 2.1.1 750-644 [Bluetooth® RF Transceiver]
- 2.1 Special Modules
- 3 Configuration of a Bluetooth® Piconet
- 4 Tools for Configuring and Operating
- 4.1 Configuring and Operating with WAGO-I/O-CHECK
- 4.2 Configuring the Bluetooth® Module 750-644
- 5 Fieldbus-specific Additions
- 6 Appendix
- 6.1 Mailbox Commands
- 6.2 Return Values of Mailbox Commands
- 6.3 Mailbox Command References
- 6.3.1 General Commands
- 6.3.2 Block Transfer
- 6.3.3 Maintenance and Firmware
- 6.3.4 Process Image
- 6.3.5 Device Configuration
- 6.3.5.1 Read the Local Device Name(GetLocalDeviceName, 0x40)
- 6.3.5.2 Write the Local Device Name (SetLocalDeviceName, 0x41)
- 6.3.5.3 Read Local MAC ID (GetLocalMacID, 0x42)
- 6.3.5.4 Read Local IP Address (GetLocalIPAddress, 0x43)
- 6.3.5.5 Set Local IP Address (SetLocalIPAddress, 0x44)
- 6.3.5.6 Read Local Subnet Mask (GetLocalSubnetMask, 0x45)
- 6.3.5.7 Set Local Subnet Mask (SetLocalSubnetMask, 0x46)
- 6.3.5.8 Read Local WAGO Device Class (GetLocalDeviceClass, 0x47)
- 6.3.5.9 Write Local Device Class (SetLocalDeviceClass, 0x48)
- 6.3.5.10 Read Local Operation Mode (GetLocalOperationMode, 0x49)
- 6.3.5.11 Set Local Operation Mode (SetLocalOperationMode, 0x4A)
- 6.3.5.12 Read Local Encryption Mode (GetLocalEncryptionMode, 0x4D)
- 6.3.5.13 Set Local Encryption Mode (SetLocalEncryptionMode, 0x4E)
- 6.3.5.14 Read Local Authentication Mode (GetLocalAuthenticationMode, 0x4F)
- 6.3.5.15 Set Local Authentication Mode (SetLocalAuthenticationMode, 0x50)
- 6.3.5.16 Read Local Bluetooth® Password (GetLocalPassphrase, 0x51)
- 6.3.5.17 Write Local Bluetooth® Password (SetLocalPassphrase, 0x52)
- 6.3.5.18 Delete Locally Saved Authorization (EraseLocalAuthentication, 0x53)
- 6.3.5.19 Read Length of the Flash Configuration (GetLocalDeviceConfigLen, 0x54)
- 6.3.5.20 Read Role of the Local Device (GetLocalDeviceRole, 0x55)
- 6.3.5.21 Set Role of the Local Device (SetLocalDeviceRole, 0x56)
- 6.3.5.22 Restore Factory Settings (SetFactorySettings, 0x57)
- 6.3.5.23 Search for Remote Bluetooth® Device in the Wireless Network (ScanRemoteDevices, 0x80)
- 6.3.5.24 Read MAC-ID of a Remote Bluetooth® Device (GetRemoteDeviceMacID, 0x81)
- 6.3.5.25 Read Device Name of a Remote Bluetooth® Device (GetRemoteDeviceName, 0x82)
- 6.3.5.26 Enter External Device in the Table of Authorized Devices (AllowRemoteDevice, 0x83)
- 6.3.5.27 Read Back External Device from the Table of Authorized Devices (GetAllowedRemoteDevices, 0x84)
- 6.3.5.28 Grant Access Authorization for a Device (BindRemoteDevice, 0x85)
- 6.3.5.29 Delete Access Authorization for a Device (UnbindRemoteDevice, 0x86)
- 6.3.5.30 Read Access Authorization for Remote Devices (GetBoundRemoteDevices, 0x87)
- 6.3.5.31 Read Back the QoS Settings (GetConnectionQoS, 0x88)
- 6.3.5.32 Set the QoS Settings (SetConnectionQoS, 0x89)
- 6.3.5.33 Read Back Time Settings - Between Two Attempts to Establish a Connection (GetReconnectionTimePeriod, 0x8A)
- 6.3.5.34 Set Time Settings - Between Two Attempts to Establish a Connection (SetReconnectionTimePeriod, 0x8B)
- 6.3.5.35 Read the User-Friendly Name of an Authorized Device (GetUserfriendlyName, 0x8C)
- 6.3.5.36 Write the User-Friendly Name of an Authorized Device (SetUserfriendlyName, 0x8D)
- 6.3.6 Diagnostics
- 6.3.6.1 Read Status of the Local Bus Module (GetLocalDeviceStatus, 0xD0)
- 6.3.6.2 Read Status of the Wireless Network (GetNetworkStatus, 0xD1)
- 6.3.6.3 Read Diagnostic Information (GetStatusMessage, 0xD2)
- 6.3.6.4 Read Connection Quality (GetLinkQuality, 0xD5)
- 6.3.6.5 Read Signal Strength for a Connection (GetLinkSignalStrength, 0xD7)
- 6.3.6.6 Read Available Hopping Channels (GetAvailableChannelMap, 0xD8)
- 6.3.6.7 Set an LED (SetLED, 0xD9)
- 6.3.6.8 Mirror Mailbox for Test Purposes (MirrorMailboxCommand, 0xDA)
- 6.3.6.9 Read the Operating Time of the Module (GetLocalUpTime, 0xDB)
- 6.4 Extended Register Structure (Configuration Block)
- 6.5 Example Configurations using WAGO-I/O-CHECK
- 6.5.1 Startup with the Bluetooth® Parameterization Dialog
- 6.5.2 Startup using Mailbox Commands in the Process Data Dialog
- 6.5.2.1 Network Structure
- 6.5.2.2 Starting up the Bluetooth® Modules
- 6.5.2.2.1 Switch the Mailbox on
- 6.5.2.2.2 Reset Modules to Factory Default
- 6.5.2.2.3 Determining the Master
- 6.5.2.2.4 Querying the MAC Address
- 6.5.2.2.5 Loading the MAC Addresses of the Slaves into the Device List of the Master
- 6.5.2.2.6 Loading the MAC Address of the Master into the Device Lists of the Slaves
- 6.5.2.2.7 Binding the Slaves in the Master
- 6.5.2.2.8 Binding the Master in the Slaves
- 6.5.2.2.9 Setting the Communication Mode for Master and Slaves
- 6.5.2.3 Testing the Process Data Exchange
- Glossary
58 • Configuration of a Bluetooth® Piconet
Special Modules
WAGO-I/O-SYSTEM 750
I/O Modules
3 Configuration of a Bluetooth
®
Piconet
To configure a piconet, connect 2 to 8 Bluetooth
®
devices with each other. In
doing so, there is some important framework data to consider:
Is real-time or ad hoc communication beneficial for your application?
Is the data that you wish to transmit time-critical data?
Also important, how many WAGO Bluetooth
®
modules and how many exter-
nal Bluetooth
®
modules are to communicate with each other: If only WAGO
devices are to be connected with each other, you can connect one master with
seven slaves. This only applies for the real-time profile, however. In the ad
hoc profile, you can connect up to six WAGO slaves. If you also want to use
external Bluetooth
®
devices in your piconet, choose the ad hoc profile. In this
profile, seven WAGO devices and six external devices can be linked, but only
a maximum of seven devices can actively exchange data at the same time.
In preparation for configuration, note which Bluetooth
®
device will take over
which role (master/slave), what the MAC addresses of the devices are and
which communication profile is to be set (real-time/ad hoc). This makes the
overview easier for you.
These considerations will determine the allocation of the devices to available
slots in the master process image. These are available for the data exchange.
In a later step, you will determine the number of bytes (cutoff size) for each
slot that should be available in the master process image for data exchange.
Only the process data allocated to the slots will be transmitted wirelessly.
Therefore, your configuration will work most efficiently if slave devices are
set to the smallest possible process image size. The smallest possible process
image size for a slave corresponds to the smallest setting for its process image
size, which is the same or larger [2 + cutoff of the corresponding slot].
After drafting your configuration in the previous steps, you can now synchro-
nize the device configurations to each other. To do this, first configure the
process image and mailbox size.
The mailbox size determines which mailbox commands can be executed. To
configure with WAGO-I/O-CHECK or building blocks of the WAGO-I/O-
PRO CAA, you can choose each available mailbox size independently of limi-
tations of the fieldbus. For a successful configuration, a mailbox size of at
least 12 bytes is necessary. If you want all diagnostic commands available to
the full extent, set it for 18 bytes. If you are using a fieldbus over which less
than 20 bytes per data element can be transmitted (e.g. CANopen), you should
reduce the mailbox size again to an appropriate size after successfully com-
pleting the device configuration.
If you plan to use the mailbox during ongoing communication; e.g., for diag-
nostic purposes, take note that when unmasking the mailbox, process data may
be temporarily covered (see Section
2.1.1.8.2.1, "Aging of data by the mail-