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
I/O Modules • 17
Special Modules
WAGO-I/O-SYSTEM 750
I/O Modules
2.1.1.6 Function Description
Bluetooth
®
technology defines piconet as a topology consisting of a master
and up to seven slaves. Data can be exchanged between each slave and the
master wirelessly and bidirectionally. Data transfer from slave to slave is pos-
sible indirectly through the master.
The Bluetooth
®
module implements Bluetooth
®
Protocol 2.0+EDR and can be
configured as either master or slave. The configuration and activation of spe-
cial functions is done through the mailbox interface described in Appendix
6.1. This is used by the startup tool WAGO-I/O-CHECK and function blocks
of WAGO-I/O-PRO CAA in order to provide the user with simple software-
supported access to the module's full range of functions.
The following networks can be configured with Bluetooth
®
modules:
• Bluetooth
®
module as master, up to 7 Bluetooth
®
modules as slaves (real-
time profile). This real-time scenario is distinguished by an especially low
latency and cycle time.
• Bluetooth
®
module as master and up to 6 active slaves. In this configura-
tion, Bluetooth
®
modules configured as slaves and other Bluetooth
®
de-
vices (e.g. Bluetooth
®
notebooks or PDAs) can be combined (ad hoc pro-
file). This scenario offers flexible connection possibilities and interopera-
bility.
A Bluetooth
®
module configured as a master can use up to 46 bytes of data
width for bidirectional data exchange with the slaves. In this case, which proc-
ess data is assigned to which slave can be flexibly configured – the available
data width can be assigned exclusively to one individual slave or be distrib-
uted with freely configurable portions among several slaves.
With Bluetooth
®
modules, ranges of up to 1000 m can be achieved with inter-
visibility. Good reception is also possible inside buildings, even with the dis-
tribution of network participants in different rooms or floors of the building.
For maximum security, data exchange can be encrypted. Another security fea-
ture of the network is that a piconet configured with Bluetooth
®
modules al-
lows no penetration by non-authorized devices.
Radio transmission with Bluetooth
®
is robust, particularly when faced with
outside influences. Thanks to frequency hopping procedures and adaptive
transmitting power, co-existence with other ISM radio technologies (e.g.
WLAN according to IEEE 802.11) is problem-free.
Potential-disturbing influences can be recognized early by the Bluetooth
®
module – even before they have a negative effect on communication. Cyclic
and acyclic retrievable diagnostic information that provide information on the
quality of the wireless connection and fulfillment of real-time conditions (in