Mitel SMART L CALL CONTROLLER Hardware Installation Manual
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Table 6-7, String Data Entry Changes SECTION MITL8350-047-102-NA Register I Default Description 602 504156 615 & 655 #a5327 625, 635, 645, 665, 675, and #8533#62*427 685 Dial r Hear 252 254 625 Machine Identifier (PAV in ASCII) Access Control Sequences for Routes 0 and 4 Access Control Sequences for Routes 1, 2, 3, 5, 6, and 7 re- spectively. PROGRAMMING EXAMPLES 6.40 Table 6-6 below lists some programming examples. These ex- amples only cover programming of the registers necessary to enable the Positive Account Verification portion of the Dialer. For other programming examples, refer to the General Information Manual. Assumptions 6.41 The examples in Table 6-6 are shown with the following as- sumptions in mind: 1) 2) 3) 4) 5) 6) The Dialer has been initialized and the Default Program has been loaded. The programming security code is ‘#OX’. Route 1 is used for long distance dialing. Account Codes are required on long distance calls only. Users are required to dial in a six digit Account Code after the long distance telephone number. Site specific Dialer information has been programmed. Table 6-8, Programming Examples (PAV) Dial Hear Description 1 6 2 #02 plus rest of sequence make up the Access Control quence followed by ##. to Se- Enter programming mode. Enable Positive Account Verifica- tion. Verified Account Code length of 6 digits for Route 1 only. Enable Verified Account Codes for Route 1 only. Program Access Control for Route 1. The #02 causes the Di- aler to delay outpulsing until the Account Code has been verified. Page 36
SECTION MITL8350-047-102-NA Table 6-8 (Cont’d), Programming Examples (PAV) Dial 826 826 826 Dial L Hear _ P J b Hear P Dial 123456&k& 654321## 626262## Hear Description Allows a user dialed Account Code of 123456. Allows a user dialed Account Code of 654321. Allows a user dialed Account Code of 626262. Repeat the 826 sequence until all of the employees 6 digit codes have been added. PAV LIST MAINTENANCE EXAMPLE 6.42 Table 6-9 below lists an End-user PAV List Maintenance Exam- ple. This example illustrates the method to be used to update the Account Codes list. It has been entered with the following as- sumptions: 1) The Dialer has been programmed as in Table 6-8 above. 2) Valid user Account Codes are 123456, 654321, and 626262. 3) Employees with PAV codes 123456 and 626262 have been fired and two new employees have been hired. The new employees’ codes will be 980934 and 348609. 4) The default Maintenance Access Code is the DTMF code ‘#w’. Table 6-9, PAV List Maintenance Example Dial 123456#9## 626262#9## 980934x+Y# 348609*## Hear #u bb P/i PP ENTERING SPEED CALLS Description Deletes employee PAV code 123456. Deletes employee PAV code 626262. Enable employee PAV code 980934. Enable employee PAV code 348609. Go back On-Hook. 6.43 Speed Calls may be entered by using one of the formats listed below when programming the Dialer: 10 Speed Call Entries = 7nn dk mm . . . mm x (if used) mm . . . ## 100 Speed Call Entries = 7nn dk mm . . . mm * (if used) mm . . . ## 1000 Speed Call Entries = 7nnn dk mm ‘. . . mm x (if used) mm . . . ## Page 37
SECTION MITL8350-047-102-NA 6.44 Table 6-10 below lists the digits required for Speed Call entries where ‘n’ is the number or location (bin) of the Speed Call Number. If 10 Speed Call entries are used, ‘nn’ is 00 through 09. If 100 Speed Call entries are used, ‘nn’ is 00 through 99. If 1000 Speed Call entries are used, ‘nnn’ is 000 through 999. ‘d’ is the key used to determine the trunk(s) that have access to the particular Speed Call Number. ‘k’ is the Network Override Key that is used to select the allowed routing for the particular Speed Call Number. ‘mm . . . mm’ is the telephone number to be dialed. ‘*’ is the delimiter used to tell the Dialer that if any other digits are entered, they will be considered Account Code Digits as illustrated by the ‘p’ entries. ‘##’ is the Speed Call number entry terminator and will cause the number to be entered into the Dialer memory. Table 6-10, Speed Call Entries FIRST DIGIT = 7 SPEED CALL DIAL DEFINITION 7nndkmm...mm## or 7nndkmm...mmxpp...pp## Format for IO Speed Call entries where: nn is the number of the Speed Call entry (00 - 09). 7nndkmm...mm## or 7nndkmm...mmxpp...pp## Format for 100 Speed Call entries where: nn is the number of the Speed Call entry (00 - 99). -/nnndkmm...mm## or 7nnndkmm...mmxpp...pp## Format for 1000 Speed Call entries where: nnn is the number of the Speed Call entry (000 - 999). d is the key that selects the trunks to access the call number as follows: DIGIT ALLOWED TRUNKS 0 ALL 1 TRUNK 1 2 TRUNK 2 3 TRUNKS I,2 4 TRUNK 3 5 TRUNKS I,3 6 TRUNKS 2,3 7 TRUNKS 1,2,3 8 TRUNK 4 9 TRUNKS I,4 * TRUNKS 2,4 # TRUNKS ‘I ,2,4 C TRUNKS 3,4 D TRUNKS 1,3,4 E TRUNKS 2,3,4 NOTE: The C, D, and E entries above may be made from a terminal.
SECTION MITL8350-047-102-NA Table 6-10 (Cont’d), Speed Call Entries DIAL DEFINITION k is the network override: 0 - 3 Force on Route #O - #3. 4 - 7 Force on Route #4 - 7. 8 Use search table to determine routing. 9 Dial immediate, no Route # (transparent). mm...mm is the phone number. If the % is entered, the digits after the * are considered to be Account Code (‘p’s). ## enters the Speed Call Number into the Dialer’s memory. 7nn## 7nnn## I Delete speed dial entry nn (100 entries). Delete speed dial entry nnn (1000 entries). 1) After entering all Speed Calls, exit the programming mode by going On-Hook; or by dialing ‘999’ on the DTMF Handset or, if using a terminal, typing an ‘X’. 2) If it is necessary to re-enter the program mode, the default access codes are the same as those of a standard Dialer. They are: a) #Ox from the DTMF Handset, or b) ### from a user Speed Call entry viewpoint, or c) Carriage Return () from a terminal. 3) Data confirmation may be accomplished from the programming mode with the use of a terminal. The ‘902’ command will enter the data confirmation mode and allow the reading back of Speed Call entries (or any other parameter). The ‘907’ command is used to exit the data confirmation mode. SEARCH TABLE PROGRAMMING CONSIDERATIONS (FOR SPEED CALL) Parameter OOOt 6.45 Parameter ‘OOOt’ selects the number of Speed Call entries al- lowed where ‘t’ equals: 0 = 10 Speed Call Entries 1 = 100 Speed Call Entries 2 = 1000 Speed Call Entries 6.46 To use 1000 Speed Call entries, the default Speed Call Trigger in Table 803 must be deleted. It must be placed in Table 804 (or higher). The recommended Speed Call Trigger is the digit K. If this digit is used, a Speed Call is dialed by pressing the * followed by the location (bin) of the Speed Call. To set up the 803 and 804 tables when programming, enter: Page 39
SECTION MITL8350-047-102-NA 803 *#9#9#9## Deletes defaulted *nn 804 *#9#9#9#2## Programs Xnnn into Dialer 6.47 If ‘OOOt’ is set to ‘0’, the programming slot number is still two digits. This must be within the range of 00 through 09. A single digit Speed Call Trigger (i.e., 802 H9#2) is possible for the Search Tables, but must be programmed within the range of 700 through 709 in the Speed Call slots. .. . . . . .’ 6.48 The maximum length of the Speed Call field is 30 characters (29 digits and a XC). The maximum length of a Speed Call or an Account Code field alone within the 30 character limit is 23 digits. Page 40
SECTION MITL8350-047-102-NA 7. CONTROLLER MEMORY CAPACITY 7.01 The PAV useable memory consists of an 8K X 8 bit battery backed up Random Access Memory (RAM) chip that is capable of holding approximately 14,500 characters. This memory area is avail- able for the storage of parameters and data at programming time. The rest of the available space is used for program execution overhead. 7.02 It is unlikely that a programmer will completely fill the RAM area with data. In the event that memory space becomes a matter of concern, the ground rules for estimating memory usage are discussed in the paragraphs to follow starting with paragraph 7.04. 7.03 If a programmer runs out of space while programming the Controller, none of the previously programmed data will be lost. The controller simply refuses any more programming after complete memory usage by displaying a question mark (?) on the terminal screen at the termination of each data entry on the keyboard. If it is suspected that RAM space has been completely used up, contact the distributor or the MITEL DATACOM Field Service Office. Once con- tacted, these personnel can verify that all RAM space has been used, and can possibly recommend more efficient programming techniques that can remedy the situation. As previously mentioned, the program- mer should almost never run out of RAM space for parameters and data. 7.04 Estimates of the memory space required versus the available memory space are possible. The programmer can, therefore, estimate the memory space required before programming and can determine if the available space is insufficient. MEMORY SPACE ESTIMATING METHOD 7.05 The simplest way to determine if the the intended data base will fit into available memory is to calculate the space required by the data. This space is then compared to the space available according to the following rules: 1) There are approximately 14,500 available data spaces in a freshly initialized Dialer. These spaces are used to store pro- grammed data. All data to be programmed into the Dialer will use this space with the exception of default settings. If a default setting is used, it will not decrease the available space. Space is mainly consumed by the parameters which are defined as ‘string’ entries and require the ## terminator for entry. Entries that do not require the ## terminator may be ignored in cal- culations. 2) A Search Table entry (parameters 801 through 815) occupies a number of spaces equal to the length of the template plus the action digits. For example, an 804 Search Table entry such as ‘804 1315 0 ##’ is four digits plus one action digit for a total of five memory spaces. The ‘804’ and ‘##’ entries are not counted. Page 41
SECTION MITL8350-047-102-NA 3) 4) 5) Note: 7.06 An entry of ‘803 #9#9#9#2’ is six digits plus two action digits for a total of eight memory spaces. An Account Code entry (parameters 821 through 835) occupies the number of spaces equal to the length of the template (account code) plus the action digits. The account code ‘12345’ with an action of ‘valid account code, allow call’ would be programmed as ‘825 12345 ##’ and would require six spaces. The ‘825’ and ‘##’ entries are not counted. A Speed Call entry occupies a number of spaces equal to the length of the Speed Call plus six (an internal Controller require- ment) spaces. This number must be rounded off to the next larger even number if the result is odd. For example, a Speed Call programmed as ‘7nnn 8 139311212 ##’ requires 14 spaces in memory. The eight digits of the telephone number plus six additional for the Controller equals 14. The ‘7nnn’ and ‘##’ entries are not counted. Access Control strings, OCC Access Numbers, OCC Authoriza- tion Codes, etc., all count, but in general require so little space that they may be neglected for the purpose of space estima- tions. Deleting a Speed Call with the ‘7nnn##’ command does not reclaim all memory previously occupied by that entry. After deletion, the memory space increase only by the number of digits in the removed speed call number and not by the ‘+ 6’ factor that was added in the calculation in 4) above. Figures 7-l through 7-3 are calculation worksheets that have been included to assist in memory space calculations. Figure 7-l is to be used in calculating Search Table space. Figure 7-2 is to be used in calculating Account Code space, and Figure 7-3 is to be used in calculating Speed Call number space. These figures are located at the end of this part. 7.07 The sum of the Search Tables + Account Codes + Speed Call Numbers must be less than approximately 14,500 spaces. Using the assumption that there will be one speed call number for each password, and that the 801 through 815 search tables are not required to be programmed (as is the usual case), the following generalizations can be made: Let X = QUANTITY ACCT. CODES SPEED CALLS (Length + 2) X + (Length + 6) X = 14,500 7.08 For example, assume that the unit is programmed with all 5 digit Account Codes and 7 digit Speed Call numbers. Using the equation under paragraph 7.07 above, the amount of space used would be 725 spaces as shown below: (5 + 2)X + (7 + 6)X = 14,500 Page 42
SECTION MITL8350-047-102-NA 7x + 13x = 14,500 20x = 14500 14500 x= 20 X = 725 Therefore, 725 five digit account codes and 725 seven digit speed calls numbers may be safely stored in the RAM memory. 7.09 Another example would be to assume that there will be twice as many account codes as speed call numbers. Account codes are still 5 digits long and speed call numbers are 7 digits long: (5 + 2)2X + (7 + 6)X = 14,500 (7)2X + 13X = 14,500 14x + 13x = 14500 27X = ‘I4500 14500 x= 27 x = 537 Therefore, 1,074 five digit account codes (2X) and 537 seven digit speed call numbers may safely be stored in the RAM memory. 7.10 If the extreme case were considered and based on the formula above, up to 381 15-digit account codes and 381 l5-digit speed call numbers could be stored in the RAM memory. For those who demand more detailed calculations, simultaneous solutions using X and Y unknowns would allow calculation of uneven numbers of account code/speed call quantities. Calculus formulae would allow both lengths and quantities to be varied, but for simplicity, it is easier to use the charts included, with known intentions. Page 43
SECTION MITL8350-047-102-NA SEARCH TABLES Parameters 801 - 815 Length+1 X Qty. Subtotal Total Space Figure 7-1, Calculation Sht. 1 Length+2 ACCOUNT CODES Parameters 821 - 835 X Qty. Total Space Subtotal Figure 7-2, Calculation Sht. 2 Page 44
1. SECTION MITL8350-047-102-NA SPEED CALL NUMBERS 7nnn Entries Length+6 X my. Subtotal Total Space Figure 7-3, Calculation Sht. 3 Page 45