Sony Ericsson Cell Phone LBI 38965 User Manual

LBI-38965  
Mobile Communications  
EDACS BCU/CAL  
Billing Correlation Unit/  
Centralized Activity Logger  
System and Installation Manual  
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LBI-38965  
TABLE OF CONTENTS (Cont.)  
3.3. CAL OPERATIONAL SPECIFICATIONS............................................................................................................ 16  
3.3.1. System Manager Interface............................................................................................................................. 16  
3.3.2. Protocol Supported........................................................................................................................................ 16  
3.3.3. CAL Operation Overview.............................................................................................................................. 17  
3.3.4. Additional Product Features.......................................................................................................................... 17  
4. INSTALLATION .............................................................................................................................................................. 18  
4.1. HARDWARE INSTALLATION ............................................................................................................................ 18  
4.2. SOFTWARE INSTALLATION.............................................................................................................................. 19  
4.2.1. Distribution Media ........................................................................................................................................ 19  
4.2.1.1. User Configuration Files ..................................................................................................................... 20  
4.2.2. Initial Installation .......................................................................................................................................... 24  
4.2.2.1. First-Time Configuration..................................................................................................................... 27  
4.2.2.2. System Disk Booting........................................................................................................................... 29  
4.2.2.3. Proper System Shutdown .................................................................................................................... 30  
4.2.3. Software Upgrades ........................................................................................................................................ 31  
4.3. CAL TERMINAL SERVER CONFIGURATION.................................................................................................. 31  
APPENDIX A EDACS BILLING (CDR) FORMAT............................................................................................................. A-1  
APPENDIX B PHYSICAL CONFIGURATION DETAILS ................................................................................................. B-1  
APPENDIX C FAULT TOLERANCE................................................................................................................................... C-1  
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1. INTRODUCTION  
This manual contains installation instructions, physical and functional descriptions, specifications, and usage information  
for the Enhanced Digital Access Communications System (EDACS) Billing Correlation Unit and the Centralized Activity  
Logger (BCU/CAL). A block diagram of the BCU/CAL is shown below.  
The BCU/CAL works as a subsystem attached to an Ericsson GE Integrated Multisite and Console Controller (IMC) and  
can be set to operate as a BCU, a CAL, or both. Each IMC node must have its own BCU/CAL.  
BCU and CAL are two separate capabilities which can run independently of each other on the same machine, yet still  
utilize resources and utilities common to both.  
Additional information for BCU/CAL can be found in the following publication:  
LBI-38967, EDACS Billing Correlation Unit/Centralized Activity Logger User Interface Manual  
RF  
RF  
System  
System  
Console  
Terminal  
Downlink  
MIM  
MIM  
DAT (Optional)  
C
A
BCU  
CAL  
Area  
IMC  
M
High-Speed  
HDLC Link  
RS-422  
Ethernet  
TCP/IP WAN  
Em ulex  
Em ulex  
Term in al  
Serv ers  
Term inal  
Serv ers  
ED ACS  
Network  
M anager  
Custom er  
Billing  
C om puter  
16 RS-232  
16 RS-232  
D EC  
DEC  
Term inal  
Serv ers  
Term in al  
Serv ers  
D ECN et  
LAN  
System  
M anager  
The dotted lines enclose the CAL-sp ecific interfaces of the BC U/C AL.  
Figure 1 - BCU/CAL Architecture  
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LBI-38965  
1.1. BCU FUNCTIONAL DESCRIPTION  
The main function of the BCU is to generate call detail records (CDRs) to be transferred to an external billing system for  
invoice generation. To accomplish this, the BCU scans an input stream of activity messages supplied by the IMC, archives  
these messages in their raw form, uses those messages which indicate channel assignment and channel drop events to calculate  
air time, and then generates the CDR.  
Call Types Supported  
All EDACS call types except for the following are supported by the BCU:  
1. Console calls.  
2. Conventional site calls.  
3. Local interconnect calls.  
4. Non-EDG data calls.  
1.2. CAL FUNCTIONAL DESCRIPTION  
EDACS system administrators require both site monitor and activity download capabilities. These functions are normally  
supported by the System Manager in conjunction with the Site Controller at each Radio Frequency (RF) System. The CAL  
provides this capability for EDACS not equipped with a Site Controller.  
1. Site Monitor  
Provides the system operator at a System Manager terminal with a real-time display of the calls in progress on the RF  
channels at the selected trunked system.  
2. Activity Download  
Call activity and system status information are collected by the CAL and buffered in internal memory. Once an  
operator-defined buffer content threshold is exceeded, the CAL initiates a download of buffer contents to the System  
Manager. The downloaded information is used to prepare traffic reports on system usage.  
In existing EDACS networks, the System Manager communicates with Site Controllers at RF systems using modems and  
dial-up or leased line connections, routed through a DECServer terminal server. A communications session is set up via a  
DECServer port between the System Manager and the Site Controller. The System Manager associates the DECServer  
physical port number with the Site Controller's identity.  
Since the IMC is already connected to all the sites, it has centrally available much of the data that individual site  
controllers normally output to the system manager for all the sites. The CAL connects to the IMC and demultiplexes  
incoming call activity information messages the same messages that the BCU uses for billing into activity download data  
and site monitor data to send to a system manager using site controller protocol.  
The CAL uses two Internet Protocol (IP) terminal servers on the local area network (LAN) to communicate with the  
System Manager's DECServer(s). Up to 32 RS-232 asynchronous serial connections are available, 16 per terminal server.  
One System Manager DECServer port and one IP terminal server port are required per EDACS system being monitored by  
CAL.  
Call Types Supported  
All EDACS call types except for the following are supported by the CAL:  
1. Console calls.  
2. Conventional site calls.  
3. Local interconnect calls.  
4. Non-EDG data calls.  
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2. PHYSICAL DESCRIPTION AND COMPATIBILITY  
This section outlines the specifications, depicts the physical architecture, and provides compatibility information for the  
BCU/CAL.  
Software for the BCU and the CAL are merged into one software package. Feature encryption allows or disallows BCU  
or CAL functionality. The two products can also run on the same hardware platform with minor additions for CAL.  
2.1. PHYSICAL SPECIFICATIONS  
General Specifications  
BCU/CAL:  
ELMA VME System 12 7-slot enclosure with PSU and integral cooling fan  
TVME 147 single-board computer with TVME 712/M Transition Module  
Formation WANServer fv5310  
Maxtor MXT-1240S 1.2 GB 3½" half-height 8.5ms hard disk drive, internal  
Teac FD235HS-711 1.44 MB 3½" half-height floppy disk drive, internal  
Tape Drive (Optional with BCU only):  
Archive/Maynard 4324NP 4/8 GB 3½" half-height 4mm digital audio tape (DAT) drive, internal  
Console Terminal:  
DEC VT100 or compatible console terminal  
Terminal Servers (CAL only)  
Emulex Performance Series P2516-SLTL (16 ports per terminal server)  
Power Supply  
BCU/CAL:  
115/230 VAC, 47-63 Hz, 500 W  
Physical (EGE Standard Cabinet)  
BCU/CAL:  
6 rack units: 26.67 cm (10.5 in.) high x 48.26 cm (19 in.) wide x 49.99 cm (19.68 in.) deep  
Environmental  
Storage Temperature:  
-40 to +85°C  
Operating Temperature: 0 to 40°C (ambient)  
Operating Altitude:  
Shipping Altitude:  
Relative Humidity:  
< 15,000 feet  
< 50,000 feet  
< 90% (non-condensing)  
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2.2. BCU/CAL ARCHITECTURE  
The BCU/CAL's internal architecture is shown in Figure 2. The individual components and their primary functions are  
outlined below.  
VMEbus Backplane  
P2 Adapter Board  
RS-232  
Appl. SW  
HDLC  
Common  
VME  
From CAM  
Platform  
Ethernet  
LAN  
SCSI  
Formation  
TVME712/M Transition  
Module  
TVME147 CPU  
WANServer  
Communications  
Module  
Tape Drive  
Floppy  
Disk  
Administrative Terminal  
Hard Disk  
To System Manager  
Terminal Servers (CAL Only)  
Figure 2 - BCU/CAL Architecture  
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LBI-38965  
The BCU/CAL is based on a VMEbus computing platform with the following components:  
CPU  
Technico TVME 147 single-board computer based on a 68030 microprocessor  
Supports BCU/CAL application processing  
Interfaces to hard disk, floppy disk, and tape drive via an on-board small computer systems interface (SCSI)  
with a connector on the transition module  
Interfaces to the console terminal via an RS-232 serial port with a connector on the transition module  
Network physical connection is 802.3 Ethernet, 10 BASE-15 (Thick Wire). A MAU may be used for  
connection to a Thin Wire (coaxial) network  
Internal Drives  
Hard Disk: 3½" 1.2 GB  
Provides configuration parameter storage  
Provides call detail record (CDR) storage  
Provides raw activity record (RAR) buffering/storage  
Floppy Disk: 3½" 1.44 MB  
Used for application program updates  
Tape: 3½" 4/8 GB 4mm DAT  
Provides call detail record (CDR) file archival storage  
Provides general purpose file interchange with UNIX  
UNIX Tar format, 512-byte tape block size, no data compression  
Communications Module  
Formation WANServer fv5310  
Interfaces the BCU/CAL via high-speed high-level data link control (HDLC) link to the Central Activity Module  
(CAM) in the Integrated Multisite and Console Controller (IMC)  
System Manager Interface (CAL only)  
One or Two Emulex Performance Series P2516-SLTL Terminal Servers  
Communicates with the BCU/CAL over the network and with the System Manager over RS-232  
Converts between transmission control protocol (TCP) sockets and asynchronous serial protocol  
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2.3. COMPATIBILITY  
The BCU/CAL software is compatible with the following IMC and System Manager versions:  
IMC Software V4.01 and later  
IMC CAM Controller Board (P/N 19D903299P3)  
Networks/Data VME Controller ROM V1.03  
MicroVax System Manager Software V3.01 and later (CAL only)  
The System Manager Software version requirement applies only to the CAL feature. The BCU feature operates  
independent of the System Manager. Thus, the BCU is “compatible” with any System Manager software  
version.  
Backwards Compatibility  
The BCU/CAL will function with IMC software versions down to V3.04, with minor performance degradation. The  
following features are not available with IMC software versions older than V4.01:  
BCU/CAL  
The User Interface “stats” command will not provide information regarding queued, denied, system busy, and  
convert-to-callee channel events.  
CAL-Specific  
Activity records and site monitoring will not reflect queued, denied, system busy, and convert-to-callee channel  
events.  
The site monitor will not provide current control channel indication.  
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3. SPECIFICATIONS  
3.1. COMMON BCU AND CAL OPERATIONAL SPECIFICATIONS  
3.1.1. EDACS System Interface  
The BCU/CAL interfaces to EDACS via a full duplex port supporting high-level data link control (HDLC) protocol. The  
BCU/CAL will adapt to the data transmission rate to which the Central Activity Module (CAM) is set to operate (64K or  
360K, selectable via CAM dip switches).  
BCU/CAL Input Data  
Each raw activity record (RAR) contains the following information:  
1. Day and time of event accurate to ±0.1 second  
2. Type of event (i.e., assignment or drop)  
3. Call type (individual clear voice, group clear voice, individual digital voice, group digital voice, data, etc.)  
4. Site number or console number  
5. Channel number (to match assignments with drops)  
6. Caller ID  
7. Callee ID  
8. Digitally dialed PSTN digits for outgoing interconnect calls  
Note: The dialed digits correspond to the digits sent by a radio to the interconnect system to initiate an  
interconnect call; dual tone multi-frequency (DTMF) overdial digits sent by the radio once an interconnect call  
is in progress are not registered by the BCU.  
3.1.2. Throughput  
The BCU/CAL's interface to the IMC is capable of receiving a peak data rate of 192 raw activity records (RARs) per  
second. A buffer stores incoming RARs at the peak rate of 192 RARs per second for a minimum of 300 seconds (5 minutes).  
3.1.3. Hard Disk Interface  
The BCU/CAL provides nonvolatile storage of the BCU/CAL operating software, CDRs, system configuration data,  
system defaults, and subscriber attributes. The hard disk provides concurrent support of call record processing and the  
operator interface.  
3.1.4. Operator Interface  
Most BCU/CAL operator functions are capable of being performed without impacting or reducing the capacity of the call  
processing functions below specified rates. Refer to the User Interface Manual, LBI-38967, for further information.  
3.2. BCU OPERATIONAL SPECIFICATIONS  
This section outlines the specifications that are unique to the BCU personality.  
3.2.1. Subscriber Attribute Database  
Each system subscriber and each group defined on the system is assigned a record in the subscriber attribute database.  
This database supports a maximum of 16,383 individual subscribers and a maximum of 2048 groups.  
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3.2.2. Billing Architecture  
The EDACS billing system architecture is shown in Figure 3. Each IMC is connected to a BCU/CAL via a high-speed  
serial communications link using HDLC protocol.  
RF  
RF  
RF  
RF  
System  
System  
System  
System  
Console  
Terminal  
Console  
Terminal  
Downlink  
MIM  
MIM  
DAT (Optional)  
MIM  
MIM  
DAT (Optional)  
C
A
Area  
IMC  
Area  
IMC  
C
A
BCU  
BCU  
M
M
High-Speed  
HDLC Link  
Ethernet  
TCP/IP WAN  
StarGate  
Customer  
Billing  
Mainframe  
To other IMCs  
The dotted lines enclose one optional setup for a StarGate (multi-node) billing architecture.  
Figure 3 - Billing Architecture  
3.2.3. BCU Operation Overview  
Each RF system sends all call information to the IMC via the downlink. This is true for single-channel autonomous  
trunking (SCAT), Conventional Network Interface (CNI), basic EDACS, and RF systems operating in failsoft mode.  
All call activity information messages received by the IMC are collected by the Central Activity Module (CAM), where  
each call message is time stamped. These messages, called raw activity records (RARs), are then passed via the high-speed  
serial link to the BCU/CAL.  
If activity logging is enabled, the BCU first archives a copy of each RAR received. The BCU then examines each RAR  
and uses the time stamp values to determine the length of each call. The actual billing algorithm is quite complex and  
depends on the BCU's keeping a memory of outstanding calls. The output of the billing algorithm is stored to a regular disk  
file as a series of call detail records (CDR). Activity logging of RARs is a diagnostic capability not required for normal BCU  
functionality. RAR activity logging consumes disk space and can result in degraded system throughput. Although the feature  
is provided, its use is strongly discouraged for most users.  
The CDR format is compatible with Cincinnati Bell Information System’s (CBIS) Cellware billing software.  
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3.2.3.1. RF Channel Usage (Air Time)  
The basic unit of RF channel usage for billing purposes is a channel assignment. One or more working RF channels is  
assigned in response to a request from a subscriber unit (mobile radio, data terminal, etc.). Each channel assignment event  
results in air time, which is defined as the period of time during which the RF channel or group of channels is in use, repeating  
the signal from a subscriber unit. If the system is operating in transmission trunked mode, one channel assignment occurs  
each time the unit is keyed and unkeyed. In a multisite network, more than one channel assignment can occur in a single  
call—since multiple sites can participate in a call—and a channel is used on each participating site. The air time for such a  
call is defined as the sum of the air time associated with all of the channel assignments occurring in that call.  
In a multiple node network (StarGate or MultiLink), a single call may involve channel assignments on sites on more than  
one node. In theory, these channel assignments are part of the same call. In practice, the BCU deals with data at the node  
level and does not correlate channel assignment air time from remote nodes. A multiple node call is identified by the  
StarGate interface ID as the site ID in the CDR; this facilitates the correlation of records across nodes in the external billing  
system.  
3.2.3.2. Conversations  
If a CDR were created for each call, the data storage requirements for the BCU/CAL would be excessive. For this  
reason, a different unit of RF channel usage, called a conversation, has been defined. A conversation includes one or more  
calls. Calls are summed into conversations based on the subscriber (radio) units participating in the calls and the duration of  
the time interval between the end of one call and the beginning of the subsequent call. The criteria for inclusion in a  
conversation are explained in detail below.  
Grouping Calls  
A set of calls may be grouped into a conversation only if each call involves the same participants and is of the same call  
type as all other calls in the set. For group calls, only calls made with the same Group Identification (GID) may be linked. In  
this case, the Logical Identification (LID) of the caller is irrelevant, except for the LID of the first caller in a sequence (this is  
explained in the next subsection). For individual calls, the caller's LID must be the same as either the caller's or the callee's  
LID in every other call in the set.  
Broken Call Sequences  
A set of calls must occur in an unbroken sequence. A sequence is broken when one of the call participants calls a non-  
participant. For individual calls, this means that either the caller or the callee from the first call in the sequence calls some  
third party, either a group or individual. For group calls, the sequence is broken if the caller from the first call in the sequence  
calls a different group or an individual. Note that a subscriber unit may participate in multiple group conversations  
overlapping in time, as long as that unit was not the first caller in at least one of the conversations.  
A sequence of calls is also broken when the time interval separating the end of one call and the beginning of the  
subsequent call in the sequence exceeds an arbitrary value. This value is called the pseudo hang time and is configurable on a  
unit or group basis in the BCU.  
3.2.3.3. Group Billing Mode  
A group call may be charged to the caller or to the group. The CDR includes a flag which indicates which party to bill.  
The choice is determined by a billing mode associated with each group ID or by the default billing mode. Individual calls are  
always charged to the caller, except for land-to-mobile interconnect calls and incoming data calls. In each of these cases, the  
ID of the caller (or sender of the data) is unknown; thus, the call must be billed to the callee.  
3.2.3.4. Input Messages  
Input to the BCU consists of a stream of activity messages. As a minimum, the messages include all channel assignment  
events and channel drop events generated on EDACS. This includes channel assignment and drop from the Jessica Private  
Branch Exchange (PBX) Gateway and StarGate interfaces.  
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Channel assignment and channel drop messages contain the following information:  
Date and time of event to the nearest tenth of a second  
Type of event (i.e., assignment or drop)  
Call type (individual clear voice, group clear voice, individual digital voice, group digital voice, data, etc.)  
Site number or console number  
Channel number  
Caller ID  
Callee ID  
3.2.3.5. Time Synchronization  
The time of channel event value is derived from the IMC's internal clock. This is slaved to the MOM-PC clock, which  
can be synchronized externally from a WWVB signal, via a Spectracom clock unit. This unit is available as an option to the  
MOM-PC. The Spectracom unit includes an internal high-stability reference clock, which maintains synchronization even in  
the event of loss of the WWVB signal for an extended period. This configuration ensures that RAR timestamps are accurate  
at all times.  
3.2.3.6. Output Records  
The BCU creates CDRs by processing the input messages due to channel assignments and channel drops. The format of  
a CDR record entry is discussed in detail in Appendix A. Each CDR records the following information about each  
conversation:  
The Logical Identification (LID) of the caller  
The identity of the callee (either LID or GID)  
The location (node, site, and channel number) of each RF channel involved in the conversation  
The call type (individual clear voice, group clear voice, individual digital voice, group digital voice, data, etc.)  
A flag indicating which party to bill (caller or callee)  
The start time of the first call  
The elapsed time from the start time until the end of the final call  
The number of channel assignments included in the conversation  
The total accumulated air time (Note that this is not the same as the elapsed time because of the pseudo hang  
time, and the effect of multiple channels per call.)  
3.2.3.7. BCU Configuration Files  
The BCU uses binary configuration files to store various configuration values. The file names and their contents are as  
follows:  
File Name  
SYSTEM.BIN  
UNIT.BIN  
Contents  
Specifies system parameters, default pseudo hang times, and billing modes.  
Specifies the pseudo hang time associated with each LID.  
GROUP.BIN  
Specifies the pseudo hang time and the group billing mode associated with each GID.  
These files are located in the 1.2/cnfg directory.  
Since they are stored in binary form, these configuration files can be modified only by using the BCU/CAL Configuration  
Service (BCS) program, which is described in the User Interface Manual (LBI-38967). The BCU is able to operate with no  
terminal input by using all default values for configuration parameters.  
Pending development by Ericsson GE of a system-wide database management strategy, there is a method by which the  
BCU configuration "database" can be maintained without using BCS to configure each unit manually.  
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The three configuration files can be created by running BCS on a BCU/CAL used as a master. Then, these files can be  
copied to the appropriate directory (1.2/cnfg) on a target BCU, and the target will assume the same configuration values.  
Changes specific to the target must be made either by running BCS on the target or by making the changes on the master,  
copying the configuration files to the target, then reversing the changes to restore the master to its baseline configuration.  
NOTE  
To copy or delete the configuration files from a BCU/CAL, you must NOT be running BCS on that system. BCS keeps all  
the configuration files open while it is running, thereby preventing them from being deleted or overwritten.  
3.2.3.8. Operator Functions  
An EDACS system operator is able to perform the following functions locally or remotely using a terminal interface  
program running on the BCU/CAL:  
Input of default configuration database.  
Default pseudo hang time.  
Default group billing mode.  
Input of configuration data for individual LIDs and/or GIDs to override the default configuration database.  
(Configuration data may be input for an individual ID or range of IDs.)  
- LID pseudo hang time.  
- GID pseudo hang time.  
- GID group billing mode.  
Creation of a magnetic tape archive of CDRs.  
Transfer CDR files from the hard drive to the floppy drive.  
Refer to LBI-38967 for a detailed explanation of the available operator functions.  
3.2.3.9. Database Elements  
This section describes the elements of the BCU's configuration database.  
Default Data  
A set of subscriber default attributes maintained on the system contains the following information:  
1. Default unit pseudo hang time (seconds)  
2. Default group pseudo hang time (seconds)  
3. Default group billing mode (caller or group)  
4. Default data call pseudo hang time (seconds)  
Unit Data  
Each subscriber can be assigned a record in the subscriber attribute database. This record contains the following  
information: Pseudo_Hang-Time (seconds).  
Group Data  
Each group defined on the system shall be assigned a record in the subscriber attribute database containing the following  
information:  
1. Group pseudo hang time (seconds)  
2. Billing mode (group or caller)  
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3.2.3.10. Call Processing  
This section contains specifications on the BCU's call processing capability.  
CDR Processing  
A record of each conversation is maintained by the system. A conversation is a collection of calls detailed by RARs that  
have been correlated based upon call participants and caller pseudo hang time. Each CDR contains the following  
information:  
1. Caller billing ID (BID)  
2. Callee BID or GID (group ID)  
3. Call type (individual, group, Digital Voice, data, interconnect, etc.)  
4. Bill flag (caller or callee)  
5. Identification of each RF channel (node, site, and channel)  
6. Start time of the first call  
7. Number of channel assignments included in the conversation  
8. Total elapsed time from start time to end of final call  
9. Total accumulated node air time to within ±0.5 seconds  
10. PSTN number dialed on outgoing interconnect calls  
11. PSTN line number on incoming interconnect calls  
Call Processing CDR Output  
The call processing software redirects file output to a new file when the current file being written to exceeds a maximum  
size. The system administrator can set this maximum size.  
CDR Storage Requirements  
The BCU is capable of storing all CDRs from the previous 30 days on its internal hard drive. CDR files are maintained  
on the system for a programmable time period.  
CDR Processing Errors  
The call processing software recovers automatically from the following error conditions:  
1. Link time-out exceeded  
2. Unmatched channel drops  
3. Unmatched channel assignments  
4. CAM hardware reset  
5. WANServer reset  
RAR Storage Options  
The system administrator can choose either to store all RARs to the hard drive or to discard RARs after use by the CAL  
and/or BCU processing software.  
RAR Storage Requirements  
The BCU/CAL can store all raw activity records for the previous 24 hours.  
3.2.3.11. Call Detail Records  
A CDR is a series of ASCII characters terminated by a newline (NL) character. The records are variable length, but they  
contain a fixed length segment, which is always present, followed by zero or more suffix segments.  
There are two types of suffix segments. The first is an additional site segment, which identifies the sites and channels  
used in a multisite call. The second type of suffix is a PSTN phone number field, which is appended to a mobile-originated  
interconnect call record and contains the digits dialed by the caller.  
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3.3. CAL OPERATIONAL SPECIFICATIONS  
This section outlines the specifications that are unique to the CAL personality. Refer to Figure 4 for the CAL  
architecture.  
3.3.1. System Manager Interface  
The CAL interfaces to the System Manager's DECServer(s) via one or two terminal servers capable of supporting up to  
32 independent asynchronous RS-232 serial connections. The ports on the CAL's terminal servers are connected to the ports  
on the System Manager's DECServers via RS-232 cables.  
3.3.2. Protocol Supported  
The CAL is capable of communicating with the System Manager using the System Manager-to-Site Controller (SM-SC)  
and Site Controller-to-System Manager (SC-SM) protocol defined in EDACS Protocol Specification, System Manager/Site  
Controller Version 1.1.  
R F  
RF  
System  
System  
M IM  
M IM  
Area  
IM C  
CAM  
High-Speed HDLC  
Link (RS-422)  
RS-232  
C entralized  
Activity  
CAL Console T erm inal  
Logger  
(CAL)  
TCP/IP  
LAN  
System  
M anager  
Em ulex  
Term inal Serv ers  
DEC  
Term inal Servers  
16 RS-232  
16 RS-232  
DECNet  
LAN  
Em ulex  
Term inal Serv ers  
DEC  
T erm inal Serv ers  
Figure 4 - CAL Architecture  
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3.3.3. CAL Operation Overview  
As new RARs enter the system, they are dispatched to an appropriate site handler which reformats and queues the data.  
When the number of activity records queued exceeds a threshold value obtained from the System Manager at startup, a  
download request is sent to the System Manager. At any point, the System Manager may log in to the site object and request  
it to purge its queue of activity messages, start/stop download of activity messages, or start/stop the transmission of  
monitoring messages.  
3.3.4. Additional Product Features  
Network File System  
The BCU/CAL can be licensed to function as a network File Server (NFS). This feature allows the BCU/CAL system disk to  
be mounted by client hosts, such as a billing mainframe computer. The NFS feature is provided at no charge for units  
licensed for BCU operation. It may be purchased as an additional feature for the CAL.  
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4. INSTALLATION  
4.1. HARDWARE INSTALLATION  
CAUTION  
Turn off the power before removing or installing VMEbus boards. Removing or reinstalling the boards while the power is on  
will damage the boards.  
This section describes the physical installation of the BCU/CAL. Other configuration is performed during manufacture,  
and the information necessary is provided in Appendix B.  
Follow these steps to connect a BCU/CAL to an IMC for the first time (except where indicated otherwise, these steps  
apply to all configurations; BCU only, CAL only, or BCU and CAL):  
Using the LAPB cable provided, connect the BCU/CAL's CAM control port 0, a female DB-25 connector located on the  
rear of the BCU enclosure, to the lower connector on the IMC backplane which corresponds to the slot in which the CAM  
resides. The cable is keyed so that it fits properly only when it is correctly oriented.  
BCU/CAL Equipment Rack  
852327G1  
J1  
IMC Equipment Rack  
19D903628P71  
P72  
903531P1  
J1  
P73  
P2  
P1  
BCU/CAL  
CAM Control  
CAM Control  
Port 0  
J14  
J9  
This will be plugged into  
PA2XX on the backplane  
and will correspond with  
the slot in which the CAM  
Data Concentrator at  
BCU/CAL Equipment Rack  
Audio Concentrator  
at IMC  
control card is located.  
19D903880P120-129  
Figure 5 - BCU/CAL to IMC  
Next, connect the console terminal to the female DB-25 connector labeled "SERIAL PORT 1/CONSOLE" on the  
TVME-712/M transition module located in the rear of the BCU/CAL enclosure. (For reference, the BCU/CAL is delivered  
preconfigured from the factory in a 19-inch rack.) Connect the other end of this cable to the console terminal's "host" port, or  
equivalent. If a PC is used as the console terminal, then a DB-9 adapter may be needed. In either case, the serial cable for the  
console is wired straight-through.  
Configure the console terminal for the communications parameters below.  
9600 Baud  
No Parity  
8 Data Bits  
1 Stop Bit  
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If the BCU/CAL is being connected to a network, plug a MAU (either coaxial or twisted pair) into the 15-pin female  
connector labeled "ETHERNET" on the TVME-712/M transition module on the rear of the BCU/CAL enclosure and attach  
the MAU to the network. If the BCU/CAL is being connected to a 10BASE-15 (Thick Ethernet) network, no MAU is  
required. Attach the transceiver cable directly to the 15-pin connector on the transition module.  
If CAL is to be enabled for this installation, then connect the Emulex P2516 terminal server(s) to the same network  
segment to which the BCU/CAL is connected and switch on the power. Be sure to wait 5 minutes after applying power to the  
P2516 before continuing on to the next step. Even though it is a separate unit, the terminal server is an integral part of the  
CAL. The terminal server must be situated near the VAX System Manger's terminal server (DECServer). The ports on the  
P2516 connect to the ports on the DECServer with RS-232 cables. The port connections will be different for each  
installation, depending on which sites will be monitored by CAL.  
Turn on all power switches and wait for approximately 2 minutes. The following indications signify that the BCU/CAL  
is functioning properly:  
The red LEDs on the BCU/CAL are not illuminated.  
The amber "STATUS" LED on the TVME-147 is lit dimly or is flashing.  
The green "RUN" LED on the fv5310 is illuminated.  
The console terminal displays the message Login:  
If any of these conditions are not met, then double-check the connections and try to restart the BCU/CAL by switching  
the power off, waiting 15 seconds, and switching on the power again. If normal operation is not achieved, then leave the  
power switched on and the network connected. It may be possible to diagnose the BCU/CAL remotely over the network.  
The personality of the BCU/CAL unit is set during manufacture, but can be changed by using the product utility, which  
can be run from the BCU/CAL command line after logging in. For details on this utility, see the User Interface Manual (LBI-  
38967).  
For BCU/CAL operation via the console terminal, refer to the User Interface Manual (LBI-38967).  
4.2. SOFTWARE INSTALLATION  
The following section describes the software distribution, installation, and configuration of the BCU/CAL application(s).  
4.2.1. Distribution Media  
The BCU/CAL software is distributed on four 1.44Mb MS-DOS compatible floppy diskettes. The first three disks  
contain Ericsson GE executable code, supplied in ASCII S-Record format. The head (first few lines) of the files on these  
disks identifies the software revision of the distribution.  
The fourth disk (Installation Disk 4) contains template ASCII configuration files which are intended to be modified by  
the end user.  
The table below summarizes the contents of the distribution disks.  
Table 1 - BCU/CAL Installation Diskettes  
Installation  
Contents  
Diskette  
1
2
3
4
LOADER.SX - “Bootstrap” loader for the BCU/CAL application.  
BC_A.SX - First segment of the BCU/CAL executable image.  
BC_B.SX - Second segment of the BCU/CAL executable image.  
Product configuration files to be modified by the BCU/CAL end user.  
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The following table summarizes the configuration files contained on Installation Diskette 4. These files are provided in  
template form, and should be modified to suit customer-specific requirements. The files are in MS-DOS format, and may be  
edited with any ASCII text editor.  
Table 2 - BCU/CAL Configuration Diskette  
File Name  
IP.DAT  
ROUTES.DAT  
Usage  
Defines the IP address, subnet mask, and host name of the BCU/CAL.  
Defines network routing paths between the BCU/CAL and other hosts on the customer’s  
network. Syntax is similar to the UNIX /etc/gateways file.  
EXPORTS.DAT  
CAL.DAT  
Defines the BCU/CAL NFS export list for units which have been purchased with the NFS file  
server software feature. File contents specify NFS client IP address(es) and the BCU/CAL  
directory(s) they are privileged to mount. Syntax is similar to the UNIX/etc/exports file.  
Defines the site interfaces from CAL to the EDACS System Manager. Contents of this file  
are directly related to configuration parameters which must be set on the Emulex Terminal  
Server(s).  
4.2.1.1. User Configuration Files  
This section discusses the contents of the user configuration files contained on Installation Diskette 4. These files should  
be modified according to customer requirements. When changes are made to the file contents, the BCU/CAL should be  
rebooted with the diskette installed in the floppy drive.  
4.2.1.1.1. IP.DAT Configuration File  
The IP.DAT configuration file is provided in template form on Installation Diskette 4. This file is common to both the  
BCU and CAL feature licenses. It defines the unit's Internet parameters on the end user's local or wide area network. The  
following three lines show the default contents of the IP.DAT file. The values shown in bold print should be modified by the  
end user. Only “space” characters should be used between the parameter keywords and the end user assigned values. Any  
errors detected in the file will be displayed on the local console during system boot.  
#######################################################################  
#######################################################################  
IP_ADDRESS  
HOST_NAME  
147.117.37.226  
bcu01  
SUBNET_MASK FFFFF000  
Table 3 - IP.DAT File Parameters  
Parameter  
Meaning  
IP_ADDRESS  
HOST_NAME  
SUBNET_MASK  
IP address of the BCU/CAL, in Internet dotted-decimal notation.  
Host name of the BCU/CAL, up to 32 characters long.  
IP subnet mask for the BCU/CAL. Specified as 8 hexadecimal digits, in upper case.  
4.2.1.1.2. ROUTES.DAT Configuration File  
The ROUTES.DAT configuration file specifies network routing paths to be established at system boot. Typically, this  
file will only be required if the BCU/CAL is connected to a wide area network, where routers exist between the unit and other  
customer host facilities. The template file contains a few example routes, which are commented out (i.e., preceded with a #  
character). If no network routing is required, this file may be omitted, or left unaltered.  
A log file (1.2/log/routes.log) is generated on each system boot. This file contains a summary of successful routing  
additions, as well as any errors detected during processing of the ROUTES.DAT file.  
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Network routes are specified in the following form:  
type  
destination_ip  
gateway  
gateway_ip  
Table 4 - ROUTES.DAT File Parameters  
Parameter  
type  
destination_ip  
gateway  
Meaning  
Keyword for the type of route being added, either host or network.  
IP address of the destination host or network, in Internet dotted-decimal notation.  
Keyword indicating that the next field is that of the gateway node.  
gateway_ip  
IP address of the gateway to be used to communicate with the host address specified by  
destination_ip.  
Parameter specification is not case-sensitive, and is parsed (i.e., net is equivalent to network). White space and/or tabs  
may separate the parameters. Trailing comments (#) are allowed.  
The following are examples of routing entries in the file ROUTES.DAT. In this example, packets destined for host  
147.117.1.2 will be routed to gateway 147.117.37.245 for forwarding. All packets destined for hosts on network 147.200.0.0  
will be routed to gateway 147.117.32.2 for forwarding. Similarly, destinations on network 147.117.100. will be routed  
through 147.117.32.3.  
host  
network 147.200.0.0 gateway 147.117.32.2  
net 147.100.0.0 gate 147.117.32.3  
147.117.1.2 gateway 147.117.37.245  
# Example of a host route  
# Example of a network route  
# Example of `parsing  
Configuration Tips  
Network routes should be entered in a logical order. That is, if there are multiple gateways between the BCU/CAL and a  
destination, the most direct route(s) should be specified first.  
Network routes may be manually added and deleted using the route command discussed in the User Interface Manual  
(LBI-38967). If you are unsure of proper routing, use the route command to experimentally determine the proper, or most  
efficient, parameters and then add these to the ROUTES.DAT file.  
Proper routing is intimately related to the IP address and subnet mask specified in the IP.DAT configuration file. Keep  
these parameters in mind when adjusting ROUTES.DAT contents.  
4.2.1.1.3. EXPORTS.DAT Configuration File  
The EXPORTS.DAT file only applies to BCU/CAL units which have been purchased with the NFS Server software  
feature. The NFS feature is always provided with the BCU. It is an option for the CAL feature. BCU users may disable the  
NFS by using the “product” command discussed in LBI-38967.  
EXPORTS.DAT defines which network clients are privileged to mount the BCU/CAL system disk. Example exports  
provided on the template disk are commented out (i.e., preceded with a # character), and thus have no effect when the file is  
processed.  
A log file (1.2/log/nfs.log) is generated on each system boot. The log summarizes the processing of this file, indicating  
what has been exported, who received the export, and any errors encountered in processing the EXPORTS.DAT file.  
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Export entries are specified in the following form:  
directory client_ip  
Table 5 - EXPORTS.DAT File Parameters  
Parameter  
Meaning  
directory  
Directory structure(s) to be exported. Must be a fully specified, valid directory on the BCU/CAL  
system disk (volume 1.2). Note that directories are case-sensitive.  
Specifying the BCU/CAL root directory (1.2/) indicates that the entire volume may be mounted  
by the host specified by client_ip.  
client_ip  
Internet address of the NFS client permitted to mount directory, specified in dotted-decimal  
notation. If no address is specified, it indicates that any client may mount the directory.  
The examples below show several valid export entries in the EXPORTS.DAT file:  
#######################################################################  
# In the following example, hosts `fallwell and `hagee may NFS mount  
# the entire BCU/CAL system disk (volume 1.2).  
# Host `robertson may only mount the BCU/CAL cdr directory.  
# Any host may mount the log directory.  
#######################################################################  
1.2/  
1.2/  
147.117.37.245  
147.117.37.248  
# host name - fallwell  
# host name - hagee  
# host name - robertson  
# any client may mount  
1.2/cdr 147.117.37.249  
1.2/log  
4.2.1.1.4. CAL.DAT Configuration File  
The CAL.DAT is a mandatory file for execution of the CAL software feature. It defines the interface parameters between  
the BCU/CAL and the System Manager. The template file defines 32 example sites, which are commented out (i.e., preceded  
with a # character) and thus have no effect when the file is processed. Entries must be provided for each site interface the  
CAL will be supporting. The information contained in the CAL.DAT file must also be used to properly configure the Emulex  
Terminal Server(s). Terminal server configuration is discussed in detail in a separate section of this document.  
EDACS System Manager site entries are specified in the following form:  
SITE.ss.PASSWD  
SITE.ss.IP  
system_manager_password  
terminal_server_ip  
SITE.ss.PORT  
tcp_port_number  
where ss designates the associated site number, ranging from 01 to 32 (inclusive). The site number in CAL should  
correspond to the site number of the System Manager port to which it will be connected.  
A log file (1.2/log/cal_ini.log) is generated on each system boot. This log summarizes the processing of this file,  
indicating which sites are supported, the values assigned as PASSWD, IP, and PORT for each site, and any errors  
encountered in processing CAL.DAT.  
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Table 6 - CAL.DAT File Parameters  
Parameter  
Meaning  
SITE.ss.PASSWD  
Specifies the System Manager password to be used for logins to/from this site.  
system_manager_password must match the associated value programmed on the System  
Manager for the site specified by ss.  
SITE.ss.IP  
Defines the Internet IP address, in dotted-decimal notation, of the Emulex Terminal server  
for the site specified by ss. Note that the address terminal_server_ip should be chosen to be  
on a directly connected network with the BCU/CAL IP address (as specified in IP.DAT).  
Defines the TCP/IP port number used to communicate between the BCU/CAL and the  
associated port on the terminal server. Note that each terminal server port is associated with  
the site number specified by ss. The value tcp_port_number must be unique for every site  
defined.  
SITE.ss.PORT  
The following example shows how sites 1 and 2 might be defined in the CAL.DAT file.  
#######################################################################  
#######################################################################  
SITE.01.PASSWD  
SITE.01.IP  
SITE.01.PORT  
SITE01  
147.117.37.10  
5001  
# System Manager Password for the site  
# IP address of the terminal server  
# TCP port number  
SITE.02.PASSWD  
SITE.02.IP  
SITE.02.PORT  
SITE02  
147.117.37.10  
5002  
Configuration Tips  
The TCP port number selection can be of significance if the BCU/CAL is attached to a large or TCP protocol intensive  
network. If you are unsure of TCP port usage on your network, consult you network administrator prior to assigning these  
values. In general, beginning TCP port definition at 5000 is safe for most applications. A convenient rule of thumb is to start  
at 5000, with the lower digits of the port reflecting the associated site number. For example, use TCP port number 5010 for  
site 10.  
The parameters defined in CAL.DAT must be known when the Emulex terminal servers are to be configured. Have a  
hard copy of this file available when you are ready to set up the terminal servers.  
The System Manager must be properly configured to recognize the sites that the BCU/CAL is simulating. Be sure that  
these sites have been defined and the passwords are correct prior to connection establishment attempts between the System  
Manager and the BCU/CAL.  
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4.2.2. Initial Installation  
The following section discusses software installation on a new BCU/CAL. An example of the expected terminal display  
during this sequence is also provided. This example is annotated with comments indicating user activity/procedures during  
the installation, as well as general information regarding the process.  
PREREQUISITES  
1. Verify that the BCU/CAL unit does not have power currently applied.  
2. Verify that the BCU/CAL is correctly connected to a VT100-compatible terminal (user console), the IMC CAM, and  
the local area network (LAN) (if applicable).  
3. Verify that the user console is configured as follows:  
a. 9600 baud, 1 start bit, 1 stop bit, no parity.  
b. VT100 personality. Terminal is DTE.  
c. No translation of CR to CR/LF.  
d. Local echo off. Tab stop at 8 characters.  
e. DCE/DTE handshaking off.  
f. XON/XOFF flow control is optional. The BCU/CAL does support flow control.  
4. Edit the user configuration files contained on Installation Diskette 4.  
a. Edit the text file, IP.DAT, to define the unit’s Internet parameters on the local network. If the unit will not have  
a network connection, the file IP.DAT may be left unmodified from that supplied with the release distribution.  
b. If initial routing entries are desired, edit the file ROUTES.DAT.  
c. If the NFS feature is purchased, edit EXPORTS.DAT. It is a template file for configuring NFS clients of the  
BCU/CAL. Client entries are specified as a BCU/CAL system disk directory, followed by the IP address of the  
client permitted to mount it. A log file (1.2/log/nfs.log) is generated on each system boot. The log summarizes  
processing of this file, indicating what has been exported, who received the export, and any errors encountered  
in this file. This file is processed during the application loading (boot) phase only. Modifications made after the  
unit is up and running will take effect during the next system boot.  
d. If the BCU/CAL has been purchased with the CAL software feature, the file CAL.DAT on Installation Diskette  
4 must be modified. This modification should define each site interface to the System Manager for which the  
CAL feature is to provide service. If the unit is only licensed for the BCU feature, the file CAL.DAT may be  
left unmodified from that supplied with the release distribution.  
e. Reboot the BCU/CAL.  
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INSTALLATION  
Installation Diskette 1  
1. Insert  
into the BCU/CAL floppy disk drive.  
2. Apply unit power, and observe the user console. The remainder of the installation is provided by way of example.  
Actual observed output may be slightly different.  
If the BCU/CAL hard disk drive has never been formatted (i.e., system integrator installation or the field unit's hard  
drive has been replaced) output similar to the following will be observed. If this message is displayed, the operator  
should answer “yes <RET>” or simply “<RET>” when prompted.  
The hard disk drive could not be mounted.  
Do you wish to perform a high level format [Y/N]? <RET>  
Beginning high level format...  
High level format successfully completed.  
<OS> Beginning bootstrap loader: DATE: May 4, 1994 TIME: 1:46:36 pm  
<OS> Floppy disk has been mounted.  
<OS> Scanning floppy disk for LOADER.SX...  
<OS> Copying LOADER.SX to the hard disk....*  
<OS> Copy complete. 299029 bytes copied.  
<OS> Floppy disk has been unmounted.  
<OS> Scanning hard disk for LOADER.SX...  
<OS> Loading file LOADER.SX from the hard disk... *  
<OS> Load complete. 97762 bytes loaded.  
<OS> Hard disk has been unmounted.  
<OS> Transferring program control to LOADER module...  
<LOADER> Installing BCU/CAL: DATE: May 4, 1994 TIME: 1:48:00 pm  
<LOADER> Floppy disk has been mounted.  
Scanning floppy disk for BCU/CAL installation files...  
<LOADER> Floppy disk has been unmounted.  
<LOADER> USER ATTENTION REQUIRED.  
Remove the current installation floppy diskette.  
Insert the next installation disk (if any).  
Strike <RETURN> to continue.  
USER ACTION: Remove Installation Diskette 1. Insert Installation Diskette 2. Press the Enter key.  
<LOADER> Floppy disk has been mounted.  
Scanning floppy disk for BCU/CAL installation files...  
Copying BC_A.SX to 01.02/loads/BC_A.SX... * Done! 1200330 bytes copied.  
<LOADER> Floppy disk has been unmounted.  
<LOADER> USER ATTENTION REQUIRED.  
Remove the current installation floppy diskette.  
Insert the next installation disk (if any).  
Strike <RETURN> to continue.  
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USER ACTION: Remove Installation Diskette 2. Insert Installation Diskette 3. Press the Enter key.  
<LOADER> Floppy disk has been mounted.  
Scanning floppy disk for BCU/CAL installation files...  
Copying BC_B.SX to 01.02/loads/BC_B.SX... * Done! 169977 bytes copied.  
<LOADER> Floppy disk has been unmounted.  
<LOADER> USER ATTENTION REQUIRED.  
Remove the current installation floppy diskette.  
Insert the next installation disk (if any).  
Strike <RETURN> to continue.  
USER ACTION: Remove Installation Diskette 3. Insert Installation Diskette 4. Press the Enter key.  
<LOADER> Floppy disk has been mounted.  
Scanning floppy disk for BCU/CAL installation files...  
Copying IP.DAT to 01.02/cnfg/IP.DAT... Done! 915 bytes copied.  
Copying ROUTES.DAT to 01.02/cnfg/ROUTES.DAT... Done! 2237 bytes copied.  
Copying EXPORTS.DAT to 01.02/cnfg/EXPORTS.DAT... Done! 1736 bytes copied.  
Copying CAL.DAT to 01.02/cnfg/CAL.DAT... Done! 4427 bytes copied.  
<LOADER> Floppy disk has been unmounted.  
<LOADER> USER ATTENTION REQUIRED.  
Remove the current installation floppy diskette.  
Insert the next installation disk (if any).  
Strike <RETURN> to continue.  
USER ACTION: Remove Installation Diskette 4. Press the Enter key.  
<LOADER> Processing file 01.02/cnfg/IP.DAT.  
Setting IP address: 147.117.37.226 (0x937525E2)  
Assigning host name: bcu01  
Setting subnet mask: 0xFFFFF000  
<LOADER> Loading file 01.02/loads/BC_A.SX from the hard disk...*  
<LOADER> First load complete. 393126 bytes loaded.  
<LOADER> Loading file 01.02/loads/BC_B.SX from the hard disk... *  
<LOADER> Second load complete. 55692 bytes loaded.  
<LOADER> Application load complete. 448818 bytes loaded.  
<LOADER> Hard disk has been unmounted.  
<LOADER> Transferring program control to BCU/CAL...  
<BCU/CAL> System startup: Wed May 4 13:54:47 1994  
<BCU/CAL> Beginning boot of fv5310 WanServer board...  
<BCU/CAL> WanServer boot complete.  
<BCU/CAL> Initializing memory and global objects...  
<BCU/CAL> Beginning application installation...  
<BCU/CAL> Checking system directories.  
<BCU/CAL> Created default LOG directory path: 01.02/log  
<BCU/CAL> Created default CDR directory path: 01.02/cdr  
<BCU/CAL> Created default RAR directory path: 01.02/rar  
<BCU/CAL> Checking system configuration files.  
<BCU/CAL> Creating default system file: 01.02/cnfg/SYSTEM.BIN...  
<BCU/CAL> Creating default unit parameters file: 01.02/cnfg/UNIT.BIN...  
<BCU/CAL> Creating default group parameters file: 01.02/cnfg/GROUP.BIN...  
<BCU/CAL> Checking product feature license.  
<BCU/CAL> Application installation complete.  
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**************************************************************  
*
*
Welcome to the EDACS BCU/CAL.  
*
*
*
*
*
*
* Copyright (C) Ericsson GE Mobile Communications  
*
*
*
Mountain View Road  
Lynchburg, Virginia 24502  
1993,1994  
**************************************************************  
System boot complete: Wed May 4 13:55:09 1994  
Login:  
USER INFORMATION  
The Welcome banner and Login prompt indicate a successful software installation and system boot. At this point, the  
operator should log into the unit under the "root" account to perform some first-time configuration operations.  
4.2.2.1. First-Time Configuration  
The following section describes the minimal set of system initializations that a user must perform to set up a BCU/CAL.  
When the BCU/CAL software is first installed, three user accounts are initialized. Each account has a varying level of  
system access security. The following table defines the initial accounts and their passwords, arranged in decreasing levels of  
access. The login name and password are case-sensitive. These passwords can be changed from their default values, and new  
accounts installed, using the passwd command. Any new accounts added will have the same level of access as the "user"  
account.  
Table 7 - Default System Accounts  
Login  
root  
Password  
root  
Access Level  
Anything. This account is the “super-user.”  
admin  
user  
admin  
user  
Can access any BCS commands for system configuration.  
Most restricted, particularly for the BCS commands.  
Log onto the BCU/CAL under the "root" account. The console display will be similar to the following:  
Login: root  
Password:  
Copyright (c) Integrated Systems, Inc., 1992.  
Welcome to pSOSystem...  
pSH+>  
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USER INFORMATION: Enter “ls” to observe the root level directory files and subdirectories which were created  
during the software installation process.  
pSH+> ls  
BITMAP.SYS  
FLIST.SYS  
LOADER.SX  
activity  
backup  
bin  
etc  
mnt var  
rar  
export  
loads  
log  
cdr  
tmp  
cnfg  
usr  
USER INFORMATION: The following example shows the configuration files for the unit. The .BIN files were  
created during the software installation process.  
pSH+> cd cnfg  
pSH+> ls -als  
total 41  
2 -rwxrwxrwx 1 root  
2 -rwxrwxrwx 1 root  
2 -rwxrwxrwx 1 root  
1 -rwxrwxrwx 1 root  
33 -rwxrwxrwx 1 root  
622 Feb 01 1994 10:45 CAL.DAT  
892 Feb 01 1994 10:45 IP.DAT  
568 Feb 01 1994 10:47 SYSTEM.BIN  
131072 Feb 01 1994 10:47 UNIT.BIN  
16384 Feb 01 1994 10:47 GROUP.BIN  
USER ACTION: Two system parameters may need to be set. If the BCU/CAL is operating in a Multi-  
Node/StarGate configuration, the IMC NIM slot number needs to be defined. If the BCU/CAL service area  
(IMC) has a Jessica interconnect system installed, the IMC PIM slot number needs to be defined. These  
parameters must be set appropriately for the BCU to correctly provide billing for calls involving these “sites” (i.e.,  
StarGate or Jessica). They are required by the CAL to simulate secondary drops from the site(s) it is providing  
service for. If the parameter (NIM or PIM slot) does not apply, it should be set to zero (default value).  
These parameters are defined using the BCU/CAL Configuration Service (BCS) program. BCS is discussed in detail in  
LBI-38967. The following example is provided for reference to get the BCU set up and running as quickly as possible.  
PREREQUISITE  
1. Obtain the IMC slot number of the NIM and PIM modules, if any.  
2. If not already logged into the BCU/CAL, log in under the "root" account as previously discussed. Enter the  
following commands at the indicated prompts.  
USER INFORMATION: Entering "bcs" invokes the BCS program.  
pSH+> bcs  
Welcome to the BCU-CAL Configuration Service (BCS)  
System Administrator privilege acknowledged.  
USER INFORMATION: Entering "show system" displays the default system parameters that were initialized  
during the initial software installation.  
BCS> show system  
Default unit pseudo hangtime = 10  
Default group pseudo hangtime = 10  
Default group billing mode = Bill callee  
Data call pseudo hangtime = 10  
Data call billing = On  
Phone digits mandatory = Off  
CDR maximum file records = 1024  
CDR sequence wrapping = On  
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Offload time = 00:00:00  
Tape logging = Off  
CDR archive(s) lifetime = 7  
IMC time synchronization = Off  
RAR activity logging = Off  
RAR maximum file records = 10000  
System ID = 0  
Node ID = 0  
NIM slot = 0  
PIM slot = 0  
USER ACTION: To define the IMC NIM slot, execute the following command. This example assumes that the  
NIM occupies slot 32. The actual value should reflect the end user's IMC configuration. If the IMC does not  
have a NIM, disregard this command.  
BCS> set system /nim = 32  
USER ACTION: To define the IMC PIM slot (for Jessica), execute the following command. This example  
assumes that the PIM occupies slot 16. The actual value should reflect the end user's IMC configuration. If the  
IMC does not have a PIM, skip this command.  
BCS> set system /pim = 16  
USER ACTION: If either of the previous commands were executed, you can verify them by entering the following  
command. The previous two steps may be repeated in case the values were incorrectly entered by the operator.  
BCS> show system /nim /pim  
NIM slot = 32  
PIM slot = 16  
USER ACTION: Exit BCS, which returns the operator the pSH+> prompt.  
BCS> exit  
pSH+>  
4.2.2.2. System Disk Booting  
After software has been installed on the BCU/CAL system disk, the BCU/CAL will use these files for any subsequent  
(re)boot. The following example shows the typical console output observed when the BCU/CAL boots from its hard disk.  
No user action is required for this process. The BCU/CAL will immediately begin normal application processing when the  
boot cycle is complete.  
<OS> Beginning bootstrap loader: DATE: May 4, 1994 TIME: 1:56:23 pm  
<OS> Scanning hard disk for LOADER.SX...  
<OS> Loading file LOADER.SX from the hard disk... *  
<OS> Load complete. 97762 bytes loaded.  
<OS> Hard disk has been unmounted.  
<OS> Transferring program control to LOADER module...  
<LOADER> Installing BCU/CAL: DATE: May 4, 1994 TIME: 1:56:58 pm  
<LOADER> Processing file 01.02/cnfg/IP.DAT.  
Setting IP address: 147.117.37.226 (0x937525E2)  
Assigning host name: bcu01  
Setting subnet mask: 0xFFFFF000  
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<LOADER> Loading file 01.02/loads/BC_A.SX from the hard disk... *  
<LOADER> First load complete. 393126 bytes loaded.  
<LOADER> Loading file 01.02/loads/BC_B.SX from the hard disk... *  
<LOADER> Second load complete. 55692 bytes loaded.  
<LOADER> Application load complete. 448818 bytes loaded.  
<LOADER> Hard disk has been unmounted.  
<LOADER> Transferring program control to BCU/CAL...  
<BCU/CAL> System startup: Wed May 4 13:58:32 1994  
<BCU/CAL> Beginning boot of fv5310 WanServer board...  
<BCU/CAL> WanServer boot complete.  
<BCU/CAL> Initializing memory and global objects...  
<BCU/CAL> Beginning application installation...  
<BCU/CAL> Checking system directories.  
<BCU/CAL> Checking system configuration files.  
<BCU/CAL> Checking product feature license.  
<BCU/CAL> Application installation complete.  
**************************************************************  
*
*
Welcome to the EDACS BCU/CAL.  
*
*
*
*
*
*
* Copyright (C) Ericsson GE Mobile Communications  
*
*
*
Mountain View Road  
Lynchburg, Virginia 24502  
1993,1994  
**************************************************************  
System boot complete: Wed May 4 13:58:50  
Login:  
4.2.2.3. Proper System Shutdown  
The BCU/CAL must be shut down in an orderly fashion prior to a system reboot. This procedure essentially disconnects  
the link to the IMC CAM, gracefully closes any open files (especially significant for the BCU), and secures the hard drive file  
system. The proper way to shut down the BCU/CAL can be executed from either the "root" or "admin" accounts. This  
procedure is shown by way of example.  
USER INFORMATION: Invoke the BCS program.  
pSH+> bcs  
Welcome to the BCU-CAL Configuration Service (BCS)  
System Administrator privilege acknowledged.  
USER INFORMATION: The BCS "halt" command performs the proper shutdown procedure.  
BCS> halt  
USER INFORMATION: Wait at least 2 minutes from issuing the "halt" command, then exit BCS.  
BCS> exit  
pSH+>  
At this point, the BCU/CAL may be powered-down, or rebooted, without concern for disk data integrity. Under extreme  
(i.e., panic) circumstances, the "root" user can force an immediate reboot by entering "reboot -h" at the pSH+> prompt, either  
at the user console or via a telnet connection.  
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4.2.3. Software Upgrades  
Software upgrades are similar to the initial installation procedure discussed above. Each time the BCU/CAL boots, it  
will check to determine whether a floppy diskette is installed. If a diskette is present, it will be scanned to check whether any  
BCU/CAL installation files are present. If applicable files are detected, they will be copied to the appropriate system disk  
directory. As in the initial installation procedure, the operator will be prompted to remove the current diskette and insert the  
next one.  
This method also applies to customer modifications to the contents of Installation Diskette 4. Specifically, if (new)  
changes are made to either the IP.DAT or CAL.DAT files, the BCU/CAL should be rebooted with the modified diskette  
inserted in the floppy drive.  
Note that previous software loads and user configuration files are not destroyed when an upgrade or configuration change  
is installed. The BCU/CAL archives up to 3 of the last installations in the "1.2/backup" directory. These can be retrieved by  
the operator in the event of problems with a new software installation, or errors in the end user modified configuration files.  
4.3. CAL TERMINAL SERVER CONFIGURATION  
The CAL feature of the BCU/CAL supports up to 2 Emulex P2516 Terminal servers. Each terminal server provides 16  
serial ports. Of these, 15 are readily accessible for System Manager site controller interfaces, with one port (port 1) being  
used for initial terminal server configuration.  
Temporarily disconnect the Ethernet LAN connection from the terminal server. Connect a “dumb” VT100 compatible  
terminal to port 1 of the terminal server to be configured. This corresponds to port 1 on the BCU/CAL distribution panel for  
the first terminal server and port 17 for the second terminal server. The terminal should be configured for 9600 baud, 1 start  
bit, 1 stop bit, and no parity.  
Log in to the first terminal server under the privileged account.  
If you are greeted with a #prompt, first execute the following command:  
# access  
If the server requests a password enter <CTRL-Z>.  
Server> su  
Password> system  
system is the default privileged account password. This can be changed later.  
Set the terminal type used to configure the server.  
Server>> change port 1 type VT100  
Define the IP address and subnet mask of the terminal server. The IP address, terminal_server_ip, must reflect the  
associated address defined in the CAL.DAT file. The subnet mask, subnet_mask, should be the same as defined for the  
BCU/CAL in the IP.DAT configuration file.  
Server>> set server ip terminal_server_ip  
Server>> set server subnet mask subnet_mask  
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For each site defined in the CAL.DAT file, configure the associated port on the terminal server as follows:  
Server>> change port port_no access remote  
Server>> change port port_no type softcopy  
Server>> change port port_no autobaud disabled  
Server>> change port port_no speed 19200  
Server>> change service PORT_<port_no> <TCP port_no> port port_no telnet disabled  
Server>> change port port_no queuing disabled  
Server>> change port port_no flow control disabled  
TCP port_no is the value defined in CAL.DAT for a particular site.  
EXAMPLE:  
Assume that the file CAL.DAT has the following two site entries: System Manger site 2 is connected to port 3 on the  
distribution panel, and System Manager site 10 is connected to port 6 on the distribution panel.  
SITE.02.PASSWD  
SITE.02.IP  
SITE.02.PORT  
SITE02  
147.117.37.10  
5002  
#Terminal server IP address  
#TCP port_no used for site 2  
SITE.10.PASSWD  
SITE.10.IP  
SITE.10.PORT  
SITE10  
147.117.37.10  
5010  
#TCP port_no used for site 10  
Inserting the information below would configure the terminal server for the values shown above.  
Server>> change port 3 access remote  
Server>> change port 3 type softcopy  
Server>> change port 3 autobaud disabled  
Server>> change port 3 speed 19200  
Server>> change service PORT_3 5002 port 3 telnet disabled  
Server>> change port 3 queuing disabled  
Server>> change port 3 flow control disabled  
Server>> change port 6 access remote  
Server>> change port 6 type softcopy  
Server>> change port 6 autobaud disabled  
Server>> change port 6 speed 19200  
Server>> change service PORT_6 5010 port 6 telnet disabled  
Server>> change port 6 queuing disabled  
Server>> change port 6 flow control disabled  
After completing the configuration, reconnect the Ethernet LAN connection to the terminal server. If a second terminal  
server is installed, repeat the procedure above.  
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Configuration Tips  
If all 16 ports of a terminal server are needed for System Manager interface, first configure 15 of them using a “dumb”  
terminal connected to port 1. Port 1 (configuration port) may then be re-assigned to a remote port, accessible via a telnet  
connection. Telnet into the terminal server on the OVERRIDE port number, and reconfigure port 1 as required. Refer to the  
Emulex Terminal Server user’s manual for additional information on server configuration via a telnet connection.  
The up arrow on a VT100 can be used to recall commands to the terminal server, allowing the user to reissue the same  
command to each port on the server by only changing port_no.  
NOTE  
The push button switch (marked default) on the front of the Emulex P2516 terminal server will erase all configuration  
information in the terminal server and return it to the factory default state. Do not use this switch to reset the terminal server.  
Cycle power or issue the “Initialize server” command from the server configuration port to restart the terminal server.  
Ericsson GE Mobile Communications Inc.  
Mountain View Road Lynchburg Virginia 24502  
Printed in U.S.A.  
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LBI-38965  
APPENDIX A  
EDACS BILLING (CDR) FORMAT  
A-1  
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This appendix defines the EDACS call detail record (CDR) format for the collection of system resource usage data in a  
multisite trunked radio system. The document is intended for use primarily by air time billing software developers who use  
this record format as input, as well as for developers of equipment and software to collect and archive call detail data from  
EDACS.  
1. OVERVIEW  
The EDACS CDR is designed to record call activity on an EDACS multisite trunked radio system. The records are  
intended primarily for billing purposes. The EDACS CDR format balances efficient storage with comprehensive resource  
utilization data.  
2. BILLING BY CONVERSATION  
EDACS uses transmission trunking to allocate RF channels. Unlike a landline telephone conversation, where a single  
circuit is established at the beginning of the call and disconnected at the end, EDACS establishes a new "circuit" (assigns an  
RF channel) each time a conversation participant presses the PTT switch on a radio, and disconnects (drops the channel) as  
soon as the PTT switch is released. Thus, a single conversation may result in several RF channel assignments. Rather than  
designate each of these brief transmissions as a call requiring its own CDR, the EDACS CDR format permits all of the  
transmissions making up a single conversation to be recorded in a single CDR. The CDR records the elapsed time of the  
conversation, the actual accumulated air time (time that an RF channel was in use) and the number of transmissions involved.  
A list of the channels used in the call is also part of the record.  
3. BILLING FOR MULTIPLE SITES  
EDACS allows calls which originate on one radio site and use RF channels on one or more additional sites. The EDACS  
CDR format accommodates these calls by recording the site number and a list of the RF channels used for each site  
participating in the call. In addition , the accumulated air time field in the CDR contains the total air time used on all sites. In  
this case, the accumulated air time value will usually be greater than the elapsed time.  
4. RECORD ENCODING  
An EDACS CDR is an ASCII text record terminated by a linefeed character (LF, decimal 10). The record consists of  
fixed length fields. The total number of fields in the record is variable, depending on whether the call involved multiple sites  
or was a radio-originated telephone interconnect call.  
Most of the fields are numeric data and are specified as either Decimal or Hex format. Decimal format fields are radix-  
10 integers encoded using the ASCII characters from decimal 48 (“0”) through decimal 57 (“9”). Hex fields are radix-16  
integers encoded using the ASCII characters from decimal 48 (“0”) through decimal 57 (“9”) and decimal 65 (“A”) through  
decimal 70 (“F”). Two additional formats are used. The radix-64 format is used to provide a sequence number for each  
record. The last format used is the dialed digits format. This format is used to record a telephone number dialed by the  
originator of a mobile-to-land telephone interconnect call. The standard digits on a telephone DTMF keypad are encoded  
using the ASCII characters decimal 35 (“#”), decimal 42 (“*”), and decimal 48 (“0”) through decimal 57 (“9”).  
The following table defines the ASCII characters used in the CDR radix-64 sequence number field, and their associated  
decimal values.  
CDR Radix-64 Digit  
0123456789  
Decimal Equivalent  
0 to 9  
ABCDEFGHIJ  
KLMNOPQRST  
UVWXYZabcd  
efghijklmn  
10 to 19  
20 to 29  
30 to 39  
40 to 49  
opqrstuvwx  
50 to 59  
yz#$  
60 to 63  
A-2  
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5. RECORD LAYOUT  
5.1. SINGLE-SITE CALLS  
The following diagram shows the layout of the fields in a basic CDR for a single-site call. The top row shows the field  
name and number, the middle row shows the subfield name and letter, if applicable, and the bottom row shows the byte offset  
within the record.  
1. Record 2. Node ID No.  
Type  
3. Record ID No.  
4. Start Date  
a. Year  
5. Start Time  
a. Hour b. Minute c. Second  
a. System b. Node  
b. Month c. Day  
0
1
2
3
4
5
6
7
8
9
10 11 12 13 14 15 16 17 18 19 20 21 22 23  
6. Call  
Type  
7. Caller ID No.  
8. Callee ID No.  
24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45  
9. Elapsed Time  
10. Accumulated Air Time 11. No. of Channel  
Assignments  
12. No. of 13. Site of Origin  
Sites  
a. No.  
b. Channel Map  
46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69  
Figure A.1 - Call Detail Record, Single-Site Call  
5.2. MULTIPLE-SITE CALLS  
A CDR may have 0 to n additional fields added beginning at byte offset 70, where n = No. of Sites - 1. The format of the  
additional fields is identical to the Site of Origin field (field 13) and is shown in the diagram below. The offset, x, of the first  
byte in each additional field is calculated as x = 62 + (8n).  
13 +n. Additional Site n  
a. No.  
x
b. Channel Map  
x+1 x+2 x+3 x+4 x+5 x+6 x+7  
Figure A.2 - Call Detail Record, Additional Site Field  
5.3. MOBILE-TO-LAND TELEPHONE INTERCONNECT CALLS  
A CDR for a mobile-to-land telephone interconnect call will have an additional field beginning at byte offset 70. This  
field contains the digits dialed by the caller. A mobile-to-land call never involves multiple sites, so the PSTN Telephone  
Number field is never combined with the Additional Site fields described in the preceding section.  
14. PSTN Telephone No.  
70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91  
101  
..  
Figure A.3 - Call Detail Record, PSTN Telephone Number Field  
A-3  
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5.4. CALCULATING THE NUMBER OF BYTES IN A CDR  
Note that the final linefeed character which terminates the record is not shown in these diagrams. The actual number of  
bytes in a CDR is calculated by adding 2 to the offset of the final byte. For example, a group call involving 4 sites contains 3  
additional site fields, beginning at offset 70 and ending at offset 93 (from the formulae above). The actual length of the  
record, including the linefeed character, is thus 95 bytes.  
5.5. CDR FIELD DESCRIPTIONS  
Table A.1 contains detailed descriptions of each of the CDR fields.  
Table A.1 - Call Detail Record Field Descriptions  
No.  
1.  
Name  
Size  
Format  
Range/Values  
Description  
Record Type  
2
4
Hex  
00 - FF  
Defines the type of record.  
00 = Mobile to Mobile  
01 = Mobile to Land Interconnect  
02 = Illegal  
03 = Land to Mobile Interconnect  
04 = Data  
05- FF = Reserved  
2.  
Node ID No.  
Unique identification number for the EDACS node where the call  
activity in this CDR occurred. User configurable.  
System ID Number (Multiple nodes)  
Node ID Number (Multiple sites)  
Unique identifier for the Call Detail Record.  
The date when the call was initiated.  
a.  
b.  
System  
Node  
2
2
Hex  
Hex  
00 - FF  
00 - FF  
3.  
4.  
Record ID No.  
Start Date  
Year  
Month  
Day  
4
8
Radix-64  
a.  
b.  
c.  
4
2
2
Decimal  
Decimal  
Decimal  
1970-2038  
01 - 12  
01 - 31  
5.  
Start Time  
Hour  
Minute  
Second  
Call Type  
6
The time of day when the call was initiated. Hours are in military  
format.  
a.  
b.  
c.  
2
2
2
Decimal  
Decimal  
Decimal  
Hex  
00 - 23  
00 - 59  
00 - 59  
6.  
7.  
2
00 - FF (See  
Table A.2)  
0000000000 -  
9999999999  
The type of call as defined in Table A.2. Indicates whether call is  
group or individual, whether to bill the caller or the callee, etc.  
For Record Types 00 and 01, this field contains the Logical ID (LID)  
of the caller. For Record Type 03, the field contains the  
Interconnect Line number.  
Caller ID No.  
Callee ID No.  
10  
10  
Decimal  
Decimal  
8.  
0000000000 -  
9999999999  
For Record Types 00 and 03, this field contains the Logical ID (LID)  
of an individual callee, or the Group ID (GID) of a call group. (The  
Call Type field indicates individual or group call.) For Record Type  
01, the field contains the Interconnect Line number.  
The duration of the call in seconds  
9.  
Elapsed Time  
Accumulated Air  
Time  
4
5
Hex  
Hex  
0000 - FFFF  
10.  
11.  
00000 - FFFFF  
The number of seconds of actual air time used on all sites on the  
local node for this call. Does not include air time on site 32 which is  
a remote node.  
No. of Channel  
Assignments  
5
Hex  
00000 - FFFFF  
01 - 32  
The number of times a channel assignment occurred on a site within  
the local node for this call.  
12.  
13.  
13+n  
a.  
Number of Sites  
Site of Origin /  
Additional Site n  
Site Number  
2
8
Decimal  
The number of sites on the local node which participated in this call.  
Information on the site of Origin (field 13) and any additional sites  
participating in the call.  
2
6
Decimal  
Hex  
01 - 32  
000000 - FFFFFF  
Site number (site 32 represents a remote node).  
b.  
Channel Map  
A hexadecimal bitmap, where bit 0 = channel 1. A bit value of 1  
indicates at least one channel assignment on the indicated  
channel.  
14.  
PSTN Telephone  
No.  
32  
Dialed Digits  
Occurs in Record Type 01 only. Contains up to 32 digits dialed by  
the caller. The digits are left justified and padded with ASCII SP  
(decimal 32) on the right.  
A-4  
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6. CALL TYPE DEFINITIONS  
Table A.2 contains the typical values of the call type (CDR field 6). Note that many call types are invalid, and most call  
types are valid only in conjunction with particular record types (CDR field 1). An “invalid call type” simply indicates that  
these values are not generated with this version of BCU/CAL software. They may be used by other EDACS components,  
such as ELI Local Interconnect.  
In developing a billing system to process CDRs, the call type bit fields in Table A.3 should be used to identify a  
particular call type.  
Table A.2 - Call Types  
Call Type  
Hex  
00  
Description  
Valid with  
Rec. Type  
00, 01  
Decimal  
0
1
Individual, Clear Voice, Bill Caller  
Group, Clear Voice, Bill Caller  
01  
00  
02  
2
ICall II, Clear Voice, Bill Caller  
00  
03  
3
**** Invalid Call Type ****  
04  
05  
06  
4
5
6
Individual, Digital Voice or Data, Bill Caller  
Group, Digital Voice or Data, Bill Caller  
ICall II, Digital Voice, Bill Caller  
00, 01, 04  
00, 04  
00  
07-08  
09  
0A-0C  
0D  
0E-10  
11  
7-8  
9
10-12  
13  
14-16  
17  
**** Invalid Call Type ****  
Group, Clear Voice, Emergency, Bill Caller  
**** Invalid Call Type ****  
Group, Digital Voice or Data, Emergency, Bill Caller  
**** Invalid Call Type ****  
Group, Clear Voice, Bill Callee  
00  
00, 04  
00, 03  
12-14  
15  
16-18  
19  
1A-1C  
1D  
1E-1F  
20  
21  
22-23  
24  
25  
26-2F  
30  
31  
32-33  
34  
35  
36-38  
39  
3A-3C  
3D  
3E-40  
41  
18-20  
21  
22-24  
25  
26-28  
29  
30-31  
32  
33  
34-35  
36  
37  
38-47  
48  
49  
50-51  
52  
53  
54-56  
57  
58-60  
61  
62-64  
65  
**** Invalid Call Type ****  
Group, Digital Voice or Data, Bill Callee  
**** Invalid Call Type ****  
Group, Clear Voice, Emergency, Bill Callee  
**** Invalid Call Type ****  
Group, Digital Voice or Data, Emergency, Bill Callee  
**** Invalid Call Type ****  
Individual, Clear Voice, Special Call, Bill Caller  
Group, Clear Voice, Special Call, Bill Caller  
**** Invalid Call Type ****  
Individual, Digital Voice, Special Call, Bill Caller  
Group, Digital Voice, Special Call, Bill Caller  
**** Invalid Call Type ****  
Individual, Clear Voice, Special Call, Bill Callee  
Group, Clear Voice, Special Call, Bill Callee  
**** Invalid Call Type ****  
Individual, Digital Voice, Special Call, Bill Callee  
Group, Digital Voice, Special Call, Bill Callee  
**** Invalid Call Type ****  
00, 03, 04  
00, 03  
00, 03, 04  
00, 01  
00  
00, 01  
00  
00, 03  
00, 03  
00, 03  
00, 03  
Group, Clear Voice, Emergency, Special Call, Bill Callee  
**** Invalid Call Type ****  
Group, Digital Voice, Emergency, Special Call, Bill Callee  
**** Invalid Call Type ****  
Group, Clear Voice, System All Call, TX Trunked  
**** Invalid Call Type ****  
00  
00  
00  
42-44  
66-68  
A-5  
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LBI-38965  
Table A.2 - Call Types (Cont.)  
Call Type  
Description  
Valid with  
Rec. Type  
00  
Hex  
45  
Decimal  
69  
Group, Digital Voice, System All Call, TX Trunked  
**** Invalid Call Type ****  
Group, Clear Voice, Update, System All Call, TX Trunked  
**** Invalid Call Type ****  
Group, Digital Voice, Update, System All Call, TX Trunked  
**** Invalid Call Type ****  
Group, Clear Voice, System All Call, MSG Trunked  
**** Invalid Call Type ****  
Group, Digital Voice, System All Call, MSG Trunked  
**** Invalid Call Type ****  
Group, Clear Voice, Update, System All Call, MSG Trunked  
**** Invalid Call Type ****  
Group, Digital Voice, Update, System All Call, MSG Trunked  
**** Invalid Call Type ****  
Individual, Clear Voice, Jessica, Bill Caller  
**** Invalid Call Type ****  
46-48  
49  
70-72  
73  
00  
00  
00  
00  
00  
00  
01  
01  
4A-4C  
4D  
74-76  
77  
4E-50  
51  
78-80  
81  
52-54  
55  
82-84  
85  
56-58  
59  
86-88  
89  
5A-5C  
5D  
90-92  
93  
5E-5F  
60  
94-95  
96  
61-63  
64  
97-99  
100  
Individual, Digital Voice, Jessica, Bill Caller  
65-6F  
70  
71  
101-111 **** Invalid Call Type ****  
112  
113  
Individual, Clear Voice, Jessica, Bill Callee  
Group, Clear Voice, Jessica, Bill Callee  
03  
03  
72-73  
74  
75  
114-115 **** Invalid Call Type ****  
116  
117  
Individual, Digital Voice, Jessica, Bill Callee  
Group, Digital Voice, Jessica, Bill Callee  
03  
03  
76-78  
79  
7A-7C  
7D  
7E-7F  
80  
81-83  
84  
85-8F  
90  
91-93  
94  
118-120 **** Invalid Call Type ****  
121  
Group, Clear Voice, Emergency, Jessica, Bill Callee  
03  
03  
01  
01  
03  
03  
122-124 **** Invalid Call Type ****  
125  
Group, Digital Voice, Emergency, Jessica, Bill Callee  
126-127 **** Invalid Call Type ****  
128  
Individual, Clear Voice, Jessica Special Call, Bill Caller  
129-131 **** Invalid Call Type ****  
132  
Individual, Digital Voice, Jessica Special Call, Bill Caller  
133-143 **** Invalid Call Type ****  
144  
Individual, Clear Voice, Jessica Special Call, Bill Callee  
145-147 **** Invalid Call Type ****  
148  
Individual, Digital Voice, Jessica Special Call, Bill Callee  
95-9F  
A0-FF  
149-159 **** Invalid Call Type ****  
160-255 Reserved Types  
A-6  
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LBI-38965  
Call Type Bit Fields  
The call type values have been selected so that individual attributes of the call type may be associated with single- or  
double-bit fields within the call type byte. (The call type byte is the 8-bit value represented by the ASCII encoded, 2-digit  
hexadecimal number in the CDR call type field.) Table A.3 shows these bit fields and their meaning.  
Table A.3 - Call Type Bit Field Definitions  
Bit Position 7 6 5 4 3 2 1 0  
0 0 0  
0 0 1  
0 1 0  
0 1 1  
1 0 0  
1 0 1  
1 1 0  
1 1 1  
Normal Call  
Special Call  
System All Call (*Modifies meaning of bits 3 and 4)  
Jessica  
Jessica Special Call  
Reserved  
Reserved  
Reserved  
0
1
Bill Caller (*TX Trunked)  
Bill Callee (*MSG Trunked)  
Normal  
Emergency (*Update Call)  
Clear Voice  
0
1
0
1
Digital Voice or Data  
0 0 Individual Call  
0 1 Group Call  
1 0 ICall II  
1 1 Reserved  
A-7  
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LBI-38965  
7. CDR FILE TOPICS  
CDR files are located in the 1.2/cdr directory. All closed CDR files are named tdddhhmm.CDR, where  
ddd = Day of the year the record was created (001 to 366).  
hh  
= Hour of the day the record was created (00 to 23).  
mm = Minute of the hour the record was created (00 to 59).  
The maximum number of call records which will be written to a single CDR file is controlled by the “bcs” utility. Refer  
to LBI-38967 for further discussion of CDR file control parameters.  
A log file (1.2/log/cdr.log) is maintained which contains information regarding when and why a CDR file has been  
closed. The contents of this file can be useful in customer tuning and diagnostics of the CDR file generation process.  
A file with a .CTM extension will exist in the 1.2/cdr directory when the BCU is actively generating CDRs. This is a  
temporary file which will grow to the user specified size, then be renamed as a .CDR file. Users should never attempt to  
modify (edit, delete, etc.) the .CTM file.  
If the BCU is logging CDR files to an optional DAT tape drive, files with a .CDP will be present in the 1.2/cdr directory.  
A .CDP is a backup copy of a CDR file which has successfully been archived to tape. The number of days that a .cdp will  
remain on the disk is also controlled using the “bcs” command.  
A-8  
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LBI-38965  
APPENDIX B  
PHYSICAL CONFIGURATION DETAILS  
B-1  
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LBI-38965  
This appendix contains information about jumper settings and cable pinouts for the BCU/CAL.  
1. JUMPER SETTINGS  
Jumper settings for the BCU/CAL components are shown on the pages listed below:  
Figure  
Page  
B.1 TVME 147SA1 Single-Board Computer..................................................................... B-3  
B.2 TVME 712/M Transition Module................................................................................ B-4  
B.3 TVME 147P2 Adapter Board...................................................................................... B-4  
B.4 fv5310 Main Board...................................................................................................... B-5  
B.5 fv5310 Mezzanine Card............................................................................................... B-6  
B.6 Maxtor MXT-1240S Hard Disk................................................................................... B-7  
B.7 Teac FD235HS-711 Floppy Disk ................................................................................ B-8  
B.8 Archive/Maynard 4324NP DAT.................................................................................. B-8  
B-2  
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LBI-38965  
P1  
P2  
J7  
Serial Port 4  
J5  
J8 J9  
Factory  
Set  
System Controller  
J3  
2 * AM27C040  
J6  
Factory  
Set  
U22  
U30  
J1  
J2  
Figure B.1 - TVME 147SA1 Single-Board Computer  
B-3  
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LBI-38965  
Figure B.2 - TVME 712/M Transition Module  
(Terminators Installed)  
Figure B.3 - TVME 147P2 Adapter Board  
B-4  
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LBI-38965  
Figure B.4 - fv5310 Main Board  
B-5  
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LBI-38965  
PORT 0: DTE WITH DCE PROVIDING RX AND TX CLOCKS  
*IMC/CAM INTERFACE  
Figure B.5 - fv5310 Mezzanine Card  
B-6  
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LBI-38965  
SCSI Connector  
J6  
RN1  
RN2  
Motor  
start on  
(Terminators Removed)  
4
3
2
1
0
power-up  
Parity  
J7  
SCSI  
ID = 2  
4
3
2
(Factory Set)  
1
0
J5  
Figure B.6 - Maxtor MXT-1240S Hard Disk  
B-7  
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LBI-38965  
TEAC FD235HS-711  
Factory Set Jumpers  
Pwr  
(Terminators  
Removed)  
ID2  
RA2  
RA1  
ID1  
ID0  
SCSI ID = 1  
SCSI Conn.  
Figure B.7 - Teac FD235HS-711 Floppy Disk  
SCSI Connector  
Reserved  
Self-Test  
JP6  
RD2  
RD1  
DDS Pass-Through (Compression Off)  
Parity On  
JP4  
SCSI Mode  
(SCSI-1)  
OFF  
SW1  
(Terminators Removed)  
8
7
6
5
4
3
2
1
ON  
PWR  
SCSI ID = 3  
Figure B.8 - Archive/Maynard 4324NP DAT  
B-8  
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LBI-38965  
2. CABLE PINOUTS  
BCU/CAL Internal Wiring - VME P2 Backplane connector (of WANServer card) to DB-25 connectors on backplate  
Table B.1 - WANServer Port 0  
VME P2  
Connector  
A-02  
C-03  
A-01  
C-01  
C-02  
C-08  
C-04  
A-06  
A-04  
A-08  
A-03  
A-05  
C-06  
A-07  
C-05  
DB-25F  
Connector  
Signal Name  
Function  
02  
14  
03  
16  
15  
12  
17  
09  
04  
19  
05  
13  
06  
22  
20  
23  
XMT-P  
XMT-N  
RCV-P  
RCV-N  
TSET-P  
TSET-N  
RSET-P  
RSET-N  
RTS-P  
RTS-N  
CTS-P  
CTS-N  
DCEREADY-P  
DCEREADY-N  
DTEREADY-P  
DTEREADY-N  
Transmit Data  
Receive Data  
Transmit Clock  
Receive Clock  
Request To Send  
Clear To Send  
DCE Ready  
DTE Ready  
C-07  
Table B.2 - WANServer Port 1  
VME P2  
Connector  
A-10  
C-11  
A-09  
C-09  
C-10  
C-16  
C-12  
A-14  
A-12  
A-16  
A-11  
A-13  
C-14  
A-15  
C-13  
DB-25F  
Connector  
Signal Name  
Function  
02  
14  
03  
16  
15  
12  
17  
09  
04  
19  
05  
13  
06  
22  
20  
23  
XMT-P  
XMT-N  
RCV-P  
RCV-N  
TSET-P  
TSET-N  
RSET-P  
RSET-N  
RTS-P  
RTS-N  
CTS-P  
CTS-N  
DCEREADY-P  
DCEREADY-N  
DTEREADY-P  
DTEREADY-N  
Transmit Data  
Receive Data  
Transmit Clock  
Receive Clock  
Request To Send  
Clear To Send  
DCE Ready  
DTE Ready  
C-15  
B-9  
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LBI-38965  
Table B.3 - WANServer Port 2  
VME P2  
Connector  
A-18  
C-19  
A-17  
C-17  
C-18  
C-24  
C-20  
A-22  
A-20  
A-24  
A-19  
A-21  
C-22  
A-23  
C-21  
DB-25F  
Connector  
Signal Name  
Function  
02  
14  
03  
16  
15  
12  
17  
09  
04  
19  
05  
13  
06  
22  
20  
23  
XMT-P  
XMT-N  
RCV-P  
RCV-N  
TSET-P  
TSET-N  
RSET-P  
RSET-N  
RTS-P  
RTS-N  
CTS-P  
CTS-N  
DCEREADY-P  
DCEREADY-N  
DTEREADY-P  
DTEREADY-N  
Transmit Data  
Receive Data  
Transmit Clock  
Receive Clock  
Request To Send  
Clear To Send  
DCE Ready  
DTE Ready  
C-23  
Table B.4 - WANServer Port 3  
VME P2  
Connector  
A-26  
C-27  
A-25  
C-25  
C-26  
C-32  
C-28  
A-30  
A-28  
A-32  
A-27  
A-29  
C-30  
A-31  
C-29  
DB-25F  
Connector  
Signal Name  
Function  
Transmit Data  
Receive Data  
Transmit Clock  
Receive Clock  
Request To Send  
Clear To Send  
DCE Ready  
02  
14  
03  
16  
15  
12  
17  
09  
04  
19  
05  
13  
06  
22  
20  
23  
XMT-P  
XMT-N  
RCV-P  
RCV-N  
TSET-P  
TSET-N  
RSET-P  
RSET-N  
RTS-P  
RTS-N  
CTS-P  
CTS-N  
DCEREADY-P  
DCEREADY-N  
DTEREADY-P  
DTEREADY-N  
DTE Ready  
C-31  
B-10  
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LBI-38965  
Table B.5 - BCU/CAL HDLC Loopback Cable Specification  
DB-25M Connector  
M/W BCU/CAL Port 1  
DB-25M Connector  
M/W BCU/CAL Port 0  
Signal Name  
Function  
Transmit Data  
Receive Data  
Transmit Clock  
Receive Clock  
02  
14  
03  
16  
15  
12  
17  
09  
04  
19  
05  
13  
06  
22  
20  
23  
03  
16  
02  
14  
15  
12  
17  
09  
05  
13  
04  
19  
20  
23  
06  
22  
XMT-P  
XMT-N  
RCV-P  
RCV-N  
TSET-P  
TSET-N  
RSET-P  
RSET-N  
RTS-P  
RTS-N  
CTS-P  
CTS-N  
DCEREADY-P  
DCEREADY-N  
DTEREADY-P  
DTEREADY-N  
Request To Send  
Clear To Send  
DCE Ready  
DTE Ready  
B-11  
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LBI-38965  
WIRING TABLE  
W IRE CO LOR  
FRO M (ITEM 1)  
TO (IT EM 2)  
SIGN AL  
W IR E  
W HITE  
BLACK  
RED  
GREEN  
YELLO W  
BLUE  
RJ12-1  
RJ12-2  
RJ12-3  
RJ12-3  
RJ12-4  
RJ12-5  
DB25-6  
DB25-4  
DB25-6  
DB25-3  
DB25-7  
DB25-7  
DB25-2  
DB25-20  
DB25-8  
DB25-5  
DTR  
TXD  
G ND  
G ND  
RXD  
DSR  
DCD  
RTS/CT S  
ITEM 5  
ITEM 5  
ITEM 5  
ITEM 5  
ITEM 5  
ITEM 5  
ITEM 4  
ITEM 4  
W HITE  
W HITE  
2
9X  
3
TBD  
P IN 1  
PIN 14  
.75  
PIN 1  
5
PIN 25  
P IN 1 3  
1
G 1  
NOTES:  
1. FABRICATE CABLE TO LENGT H  
INDICATED. NOTE CONNECTOR  
ORIENTAT IO N CAREF ULLY.  
Figure B.9 - CAL Terminal Server to Distribution Panel Cable  
B-12  
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LBI-38965  
420 3840G1  
TER M INA L SE RVER  
1
A14 INMAC H1060-1  
A14 INMAC H1060-1  
J
1
J4  
J6 J7  
J
9
J10 J11 J12 J13 J14 J15 J16  
J2 J3  
J5  
J8  
ETHERNET IN  
0
1
3
6
1
3
1
1
1
1
1
T
R
O
T
T
T
T
T
R
R
TO  
R
R
R
O
O
O
O
O
P
P
P
P
P
P
TRANSC EIVER  
J3 3  
ETHERNET OUT  
8
7
9
0
1
2
9
6
2
1
8
1
2
2
1
2
3
2
2
2
T
T
T
T
T
T
T
T
T
T
R
O
P
1
R
R
O
P
R
R
R
R
R
O
P
R
R
O
P
O
O
O
O
O
O
P
P
P
P
P
P
J34  
J1  
J1 2  
J 1 4 J15 J16  
J13  
J2 J3 J4  
J6 J7 J8  
J
9
J10 J11  
J5  
A14 INMAC H1060-1  
A14 INMAC H1060-1  
4203840 G1  
TER M IN AL SE RV ER  
2
NOT ES:  
1
ETH ERNET TH IN W IRE CO AX CO NN ECTOR FOR NET W ORK CONNEC TION  
Figure B.10 - CAL 32-Port Configuration  
B-13  
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LBI-38965  
EGE PT. NO. 19C852327G1  
CO NT RO L INTERFACE BOARD  
J15  
J14  
A6P2  
J2  
A6 2203710G1  
J1  
J3  
J5  
BCU/CAL REAR PANEL  
J4  
J6  
I/O PANEL / TRANSITION MODULE  
J1 PORT 0  
DB25F  
A6P1  
J2 PORT 1  
DB25F  
A7P1  
J3 PORT 2  
DB25F  
Computer  
Terminal  
J4 PORT 3  
DB25F  
A7P2  
TO TERMINAL SERVER 1  
ASCII Keyboard  
TRANSCEIVER  
P
R
I
N
T
E
R
Figure B.11 - BCU/CAL Rear Panel I/O  
B-14  
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LBI-38965  
APPENDIX C  
FAULT TOLERANCE  
C-1  
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LBI-38965  
Figure C.1 shows the architecture for a fault tolerant EDACS billing system.  
RF  
System  
Primary  
Downlink  
Backup  
Downlink  
Console  
Terminal  
MIM  
(Backup)  
MIM  
(Primary)  
C
A
M
BCU  
BCU  
AREA  
IMC  
C
A
M
Console  
Terminal  
To StarGate  
Figure C.1 - EDACS Billing Fault Tolerant Architecture  
Redundant MIM processors are added to each RF System interface within the IMC. A duplicate CAM is added, which  
connects to the redundant BCU/CAL and tape drive.  
REDUNDANT OPERATION  
The primary and redundant MIM processors operate in a hot standby configuration, i.e., once primary unit failure is  
detected, the backup becomes the active processor with minimal disruption to calls in progress. The redundant CAM,  
BCU/CAL and tape drive are operated as on-line mirror duplicates. This eliminates any changeover operation; in the event of  
failure of one BCU/CAL, or its associated components; the remaining unit continues to operate and process call activity.  
C-2  
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