Mitel SMART L CALL CONTROLLER Hardware Installation Manual

							SECTION MITL8350-048-l OO-NA 
ENTER DEFAULT 
1 
x34t Table 7-5 (Cont’d), Non-Controller Pertinent Parameters 
DESCRIPTION 
6 Tip Ground Removal Timer, where t equals: 
0 = 40 ms 6 = 240 ms 
1 = 40 ms 7 = 280 ms 
2 = 80 ms 8 = 320 ms 
3 = 120 ms 9 = 360 ms 
4 = 160 ms A = 400 ms 
5 = 200 ms B = 440 ms 
7.67 x03t - This command programs the On-Hook Timing (i.e., how 
long the controller has to recognize an on-hook condition). The 
default for the command is 750 ms. The parameter can be pro- 
grammed for a period from 80 to 2500 ms in 12 steps. To select a 
particular timing, enter a number from 0 to 9 or the letter A or B in 
place of ‘t’ in the command line. For example, if it is desired to 
program all trunks for an On-Hook Recognition Time of 500 ms, the 
command would be entered as: 
> r50351 
> 
7.68 x04t - The x04t command programs the Flash Allowed Timing. 
If the Flash Allowed Time is longer than the On-Hook Timing 
(x03t), then flash is not allowed. The default for the command is 80 ms. 
The time period can be programmed from 80 to 2500 ms in 12 steps. 
To select a particular timing, enter a number from 0 to 9, or the letter 
A or B in place of ‘t’ in the command line. For example, if it is desired 
to program all trunks for a Flash Allowed Time of 1000 ms, the com- 
mand would be entered as: 
> [50473 
> 
7.69 x06t - This command programs the Controller for the number 
of Ground Start Tries in case of failure. A failure after the 
indicated number of tries will go to a call drop. The default for this 
command is 3. ‘t’ is selected as the number of tries where ‘t’ equates 
to the digit 0 through 9. If Trunk 1 were allowed 4 Ground Start tries, 
the command would be entered as: 
> [lo641 
> 
7.70 x07t - The x07t command programs the Controller for the time 
period to wait for Tip Ground to appear on the line on a Ground 
Start try. The default for this command is 3 seconds. ‘t’ equates to the 
number of seconds and may be a number from 0 to 9. For example, if it 
is desired to program the Controller for a Ground Start timeout of 6 
seconds on Trunk 2, the command would be entered as: 
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							SECTION MITL8350-048-l OO-NA 
> C20761 
> 
7.71 x14t - 
The x14t command programs the Rotary Dial Inter-Digit 
Pause time for the Central Office on outgoing dialing. The de- 
fault for this command is 800 ms. The time period is programmable 
from 400 to 1200 ms in 100 ms steps. A period is selected by replacing 
the ‘t’ in the command line with a number from 0 through 8. For 
example, if it is desired to program the Controller for an Inter-digit 
Pause time of 1200 ms on Trunk 3, the command would appear as: 
> [31481 
> 
7.72 
x20t -This command programs the Incoming Ringing Sensitiv- 
ity. This sensitivity indicates a time period from the initial ap- 
plication of ringing to the line, to the first recognition of ringing by the 
Controller. These times are nominal and may be slightly different when 
actually measured. The period can range from 40 to 240 ms in 16 steps 
and is selected by substituting a number from 0 to 9, or a letter from A 
to F for ‘t’ in the command line. For example, if Trunk 2 were to be 
programmed for a ringing sensitivity of 160 ms, the command would 
be entered as: 
> 122091 
> 
7.73 
x21t - This command programs the Inter-Ring Timing in sec- 
onds. The period may range from 0 to 9 as selected by sub- 
stituting a number from 0 to 9 respectively for ‘t’ in the command line. 
The default for the command is 6 seconds. For example, if it were 
desired to program all trunks for an 8 second Inter-Ring time period, 
the command would be entered as: 
> [52181 
> 
7.74 x24t 
- The x24t command programs the Controller to Select 
Default Route when called for as an action digit in the Search 
Tables. This route is from within one of two groups of four routes. 
Routes are either primary or alternate and are numbered from 1 to 4 
for the primary; from 5 to 8 for the alternate. Since one of these two 
groups is to be selected by this command, it is only necessary to enter 
a ‘0’ (primary) or a ‘4’ (alternate) in place of ‘t’ in the command line. 
Any other number from 0 to 3 will also select primary routes, and any 
other number from 4 to 7 will select alternate routes. If the ‘Use 
Default Route’ is desired, it must be programmed as an action digit in 
the 801 through 815 Search Tables. The default for the command is ‘0’ 
or use primary routes 1 through 4. An example of programming Trunk 
2 to use alternate routes 4 through 7 would be entered as: 
> 122441 
> 
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							SECTION MlTL8350-048-l OO-NA 
7.75 x31t - 
This command programs the Tip Ground Application 
Timer for Tip Ground application recognition (GND START). The 
time period is selectable from 40 to 440 ms in 12 steps. The period is 
selected by substituting a number from 0 to 9, or the letter A or B that 
equates to the desired time period. The default for the command is 120 
ms or ‘3’. For example, to program all trunks for a Tip Ground Applica- 
tion Timer of 440 ms, the command would be entered as: 
> [531Bl 
> 
7.76 x33t - This parameter controls the hit timing for the trunk. Hit 
timing is the minimum time that an on-hook, a line break, or a 
D C short must appear on the trunk before the 
nize it. To change the Hit Timing to 20 ms, enter: Controller will recog- 
> [23381 
> 
7.77 x34t - 
The x34t command programs the Controller for the lip 
Ground Removal Timer. A period within the range of 0 to 440 
ms can be selected by substituting a number from 0 to 9, or the letter 
A or B for ‘t’ in the command line. These periods are listed in Table 7-5 
above under the x34t command. The default for the command is 240 
ms. For example, to program all trunks for a 120 ms Tip Ground 
Removal time, the command would be entered as: 
> c53431 
> 
PASSWORD PROGRAMMING 
7.78 Passwords can range from 2 to 15 digits in length, depending 
upon the desired usage. Refer to Figure 7-4 for an illustration of 
the password format. Password programming is accomplished by en- 
tering a password string in the 821 through 835 Search Tables. 
7.79 If the Controller is intended to provide an automatic callback 
function, the password can only range in length from 3 to 12 
digits. The last three digits are used as the Speed Call Address which 
is a label that identifies the callback number to use. Therefore, in this 
case, the password will be from 3 to 15 digits in length. 
7.80 If the password action digit does not perform automatic call- 
back, then the password may be from 1 to 15 digits in length. 
There is no need for a label to the speed call bin. 
7.81 Note that no two passwords may be identical regardless of the 
action digits that are associated with it. Entering a second 
identical password will overwrite the original password in the list. 
Note: When comparing the Password Tables against the dialed in 
password, the last action encountered will be used. Refer to 
the password programming examples in later text. 
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							SECTION MITL8350-048-IOO-NA 
7.82 
Figure 7-4 illustrates the password format showing the actual 
password (authorization code), speed call address (if used), ac- 
tion digit, time-of-day code, and terminator. Password data entry must 
always be terminated by the ‘BB’ code. 
7.83 Table 7-6 on the next page illustrates the various password 
entries for password tables 821 through 835, along with a 
description of each parameter that must be entered. 
7.84 Table 7-7 on the next page lists the password action digits 
along with a description of each action. If the digit in the first 
column is used as a password action digit, its use will cause the 
password to be printed in the Call Detail Record (CDR). If the digit in 
the second column is used, the password will not be printed on the 
CDR. The last entry describes the code for the action digit ‘B9’. This 
‘B9’ is considered by the Controller to be one hexadecimal character. 
Thus, the ‘B9’ has to be entered twice. 
. 
7.85 Table 7-8 on the next page lists the time-of-day codes along 
with a description of each code. The times listed after the code 
show when a particular password entry that has the code will be 
allowed access. Times are entered in the 24 hour standard format. At 
the time of the call, the Controller will compare the current time 
against the allowable range of times for the password. If not within 
range, the call will be denied. 
3/ PASSWORD JI TERMINATOR \~r 
1 2 3 4 5 6 7 8 9 101112 13 14 15 A B B B 
nnnnnnnnnnnn n n n a t 
B B 
m 
Authorization Code 
m 4 m 
Speed Call Address 
if action accesses 
Speed Call, else 
3 more Authorization 
Code digits 
Action Digit 
Time-of-Day Code 
Figure 7-4, Password Format 
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							Table Entry 
821nat BB 
822nnat BB 
823nnnat BB 
824nnnnat BB 
825nnnnnat BB 
826nnnnnnat BB 
827nnnnnnnat BB 
828nnnnnnnnat BB 
829nnnnnnnnnat BB 
830nnnnnnnnnnat BB 
83lnnnnnnnnnnnat BB 
832nnnnnnnnnnnnat BB 
833nnnnnnnnnnnnnat BB 
834nnnnnnnnnnnnnnat BB 
835nnnnnnnnnnnnnnnatBB SECTION MITL8350-048-l OO-NA 
Table 7-6, Password Table Descriptions 
Description 
Where ‘n 
. . . n’ are the password digits to be used for 
comparisons to the user dialed password digits. n may be 
any quantity of digits between 2 and 15 corresponding to 
the size of the table selected, unless the action is access- 
ing a speed call. In this case the minimum length would be 
3 digits. 
n = any DTMF digit from 0 through 9 and JC. n may also 
be: 
BO = to search for digit ‘#’ within the password, or 
B9 = to allow any DTMF digit in that particular location 
within the password. Refer to password programming ex- 
amples. 
Where ‘a’ is the action digit to be performed upon expira- 
tion of the call answer timer (x27t) for the particular match 
found. 
Where ‘t’ is the time-of-day code to be checked in deter- 
mining if a particular password is allowed access at the 
current time. 
Where BB is the terminator used to indicate end of entry. 
Table 7-7, Password Action Digits (a) 
2 6 
3 7 
B9 B9 B9 B9 DESCRIPTION 
Deny call if this is last action encountered. 
Accept Callback Number. 
Go to Speed Call callback location determined by last 3 
digits of the password, if this is the last action encoun- 
tered. 
Cut through, if this is the last action encountered. 
Delete this password. 
Table 7-8, Time-Of-Day Codes (t) 
CODE 
1 DESCRIPTION 
All Day (24 Hour Access) 
Daytime only (0800 to 1700) 
Evening only (1700 to 2300) 
Night only (2300 to 0800) 
- 
Day and Evening only (0800 to 2300) 
Day and Night only (2300 to 1700) 
Evening and Night only (1700 to 0800) 
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							SECTION MITL8350-048-IOO-NA 
Password Programming Examples 
7.86 
The following paragraphs show examples of password pro- 
gramming. There are three examples listed. These examples, by 
no means include all possible programming methods, but they do 
illustrate some of the more basic password programming ways. 
Example 1 
7.87 
Example 1 shows a programming line to allow password ‘1111’ 
to cause an automatic callback without printing the password in _1 
the Call Detail Record. This example allows 24 hour access to the 
protected Modem. Once in the programming mode, enter: 
> [824111160BB] 
> 
7.88 
The password is 4 digits in length. Therefore, the ‘824’ param- 
eter must be used to enter the ‘1111’ in the password tables. 
The ‘6’ is the action digit that specifies ‘go to Speed Call callback 
location ‘111’ (last three digits of password indicate Speed Call bin 
number) without printing password on CDR’. The ‘0’ is the time-of-day 
code for all day access (24 hours). ‘BB’ is the data entry terminator. 
Example 2 
7.89 Example 2 shows a programming line to allow password ‘22222’ 
to accept a user-entered callback number between 1700 to 
2300 hours and to print the password in the Call Detail Record. 
> [8252222212BB] 
> 
7.90 
The password is 5 digits in length, requiring 
the use of the ‘825’ 
parameter for entry in the tables. The ‘1’ is the action digit 
specifying accept callback. The ‘2’ is the time-of-day code that speci- 
fies evening only (1700 - 2300). ‘BB’ is the entry terminator. 
Example 3 
7.91 Example 3 
shows a programming line to allow password 
‘9999999999’ to ‘cut through’ (no callback) between 0800 and 
1700. The password is also printed in the Call Detail Record. 
> [830999999999931 BB] 
> 
7.92 The password is 10 digits in length, requiring the use of the 
‘830’ parameter for entry. The ‘3’ is the action digit that speci- 
fies cut through. It also specifies that the password be printed in the 
Call Detail Record. The ‘1’ is the time-of-day code for day only (0800 - 
1700). ‘BB’ is the data entry terminator. 
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							SECTION MITL8350-048-l OO-NA 
7.93 
All of these examples may be programmed in one session. This 
is illustrated in the example below: 
> 
> 
> 
> 
> 
> [8241111 SOBS] 
18252222212991 
[830999999999931BBl 
[711183931212BB] 
[9991 QUITTING PROG. MODE 
7.94 Note the fourth programming line from the top. This line pro- 
grams the Speed Call bin number ‘III’ for callback number 
‘393-1212’. All Speed Call bins are 7nnn parameters where the 111 
indicates the actual stored speed call. This was one of the require- 
ments in example 1 above. It was required to make the ‘8241111’ entry 
operational. If no speed call was entered in the ‘I 11 bin, no callback 
would be accomplished. Refer to paragraph 7.97 below for more in- 
formation on Speed Calls and Callback Numbers. 
7.95 To delete a password, enter the password, followed by the 
action digits ‘B9B9’. For example: 
> [825222221299991 
> 
will delete the password ‘22222’ and its associated action digits ‘12’ 
from the ‘825’ (five digit) password table. 
AUTOMATIC CALLBACK (SPEED CALL) PROGRAMMING 
7.96 The example at the end of this paragraph shows the callback 
number data entry format where ‘7’ is the register prefix and 
‘nnn’ is the ‘bin’ number (address) of the callback number. Bin numbers 
must be the same as the last three digits of the assigned password 
that the caller must dial into the Controller. The ‘nnn’ may be any digits 
from 000 through 999. This allows the use of 1000 callback numbers. 
7nnn k mmm . . . mmm BB 
7.97 
The ‘k’ in the format example above is the network override 
code. This will normally be an ‘8’ which commands the Control- 
ler to use Search Tables 801 through 815. All possible values of ‘k’ are 
listed in Table 7-9 below. 
Table 7-9, Network Override Codes 
CODE 1 DESCRIPTION 
0 Force callback on Route 1 
1 Force callback on Route 2 
2 Force callback on Route 3 
3 Force callback on Route 4 
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							SECTION MlTL8350-048-l OO-NA 
Table 7-9 (Cont’d), Network Override Codes 
CODE DESCRIPTION 
4 Force callback on Route 5 
5 Force callback on Route 6 
6 Force callback on Route 7 
7 Force callback on Route 8 
8 Use Search Tables 
9 Dial immediate, no route. This code is not recom- 
mended for use. Since no route is used, there is no 
check to ensure the presence of dialtone before per- 
, 
forming the callback. 
7.98 ‘mmm 
. . . mmm’ in the format example is the telephone number 
to be used for callback. ‘BB’ is the terminator for the entry. 
7.99 All trunks of the Controller have access to all callback registers. 
This means that a user may call in on more than one line and 
receive a callback, in the event that a tried line is busy. 
7.100 Deletion of a callback Speed Call number consists of entering 
the Bin number with no callback number. For example, to delete 
the ‘7111’ entry in example 1, simply program: 
> 17111681 
> 
SEARCH TABLE PROGRAMMING 
7.101 Upon execution of callback, the numbers in the callback Speed 
Call bin or the user entered callback digits are compared 
against the Search Tables to determine the ‘route’ to use, and whether 
or not the call is allowed according to the programming previously 
entered. 
7.102 Default values are included in the factory programmed defaults 
that will place all callbacks on the DDD Network. If this is 
satisfactory, no programming will be required for the Search Tables. 
7.103 Some programming will be required if it is desired to limit 
callbacks from occurring to certain area codes or to limit long 
distance calls, or if an Other Common Carrier (OCC) is selected, etc. 
7.104 The sequence of digits programmed into these Search Table 
registers for comparison to automatic or user entered callback 
digits, is considered to be the Search Table ‘template’. Table 7-10 on 
the next page illustrates the format for the 801 through 815 Search 
Table data entry. 
Action Digit Definitions 
7.105 To ‘Force’ a route means that once 
been satisfied for the ‘Force’ action, the template match has 
no change of the routes 
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							SECTION NliTL8350-048-l OO-NA 
may occur. This mode of routing will be the usual action used for the 
Controller operation. 
Table 7-10, Search Table Descriptions 
Table Entry Description 
801na BB 
802nna BB 
803nnna BB 
804nnnna BB 
805nnnnna BB 
806nnnnnna BB 
807nnnnnnna BB 
808nnnnnnnna BB 
809nnnnnnnnna BB 
8lOnnnnnnnnnna BB 
811nnnnnnnnnnna BB 
812nnnnnnnnnnnna BB 
813nnnnnnnnnnnnna BB 
814nnnnnnnnnnnnnna BB 
815nnnnnnnnnnnnnnna BB Where ‘n 
. . . n’ are the digits to be used for comparisons 
to the user dialed digits or callback Speed Call Number. 
n = any DTMF digit from 0 through 9 and x. n may also 
be: 
BO = to search for digit ‘#’ within the password, or 
Bl = Compare against 
1 or 0. 
84 = Compare against any digit from 2 through 9. 
B9 = Compare against any digit (do not care). 
Where a is the action digit to be performed upon success- 
ful match of the digit 
’ template’. The series of n digits 
(‘nnn 
. . . nnn’) is considered the template. 
Where BB is the terminator used to indicate end of entry. 
1 
7.106 To ‘Prefer’ a route means to commence the dialout pattern in 
the preferred route. The route actually used could be changed 
later on in the dialing sequence as more dialed digits are received. 
This routing method is a faster means of dialout for commonly dialed 
or important numbers, usually associated with Other Common Carrier 
(OCC) programming. This method could allow, for instance, the first 
three digits of the callback number to cause the Carrier to be ac- 
cessed, and, on a later dialed digit received, stop the dialout to pro- 
ceed to a different route (dial a different series of digits). This routing 
method will probably be seldom used in Security Access Controller 
operations. 
7.107 Table 7-11 below provides a description of the action digits. 
Note that only one action may be programmed for a particular 
template. Re-entering a template with a different action overwrites the 
previous template and assigns the new action. 
Table 7-11, Action Digit Descriptions 
CODE 
1 DESCRIPTION 
x24t = o-3 x24t = 4-7 
0 Prefer Route 1 5 
1 Prefer Route 2 6 
2 Prefer Route 3 7 
3 Prefer Route 4 8 
(continued) 
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							SECTION MITL8350-048-l OO-NA 
Table 7-11 (Cont’d), Action Digit Descriptions 
CODE 
4 
5 
6 
7 
Bl 
B6 
87 
88 
B9 DESCRIPTION 
x24t = o-3 x24t = 4-7 
Force Route 1 
5 
Force Route 2 
6 
Force Route 3 
7 
Force Route 4 
8 
Deny - drop call. 
Enough digits, stop searching. This action digit must be encountered in order to 
provide the Route parameter 6r5 permission to allow connection of the tele- 
phone lines. Otherwise, the connection will not occur until the expiration of the 
Inter-digit Time out. 
Do nothing - wait for more digits. 
Prefer Default Route (x24t). 
Delete this template. B9 is used as an action digit in order to delete one par- 
ticular template from the Search Tables (i.e., 
1803393B91 deletes the template 
‘393’ and its action digit from the Search Table register ‘803’). 
Programming Examples 
7.108 The two examples included below illustrate the programming of 
the Search Tables. The first is used to deny all calls to Area 
Code 315. The second is used to force all 393 office codes to Route 1. 
Example 1 
> [803315Bl BB] 
> 
7.109 In the above example, the ‘803’ is the designator for the 3-digit 
Search Table. ‘315’ is the 3-digit template (Area Code). ‘Bl’ is 
the action digit to deny the call. Finally, ‘BB’ is the entry terminator. 
Example 2 
> [8033934BB] 
> 
7.110 In the above example, the ‘803’ is the designator for the 3-digit 
Search Table. ‘393’ is the 3-digit template (office code). ‘4’ is 
the action digit to force the call to Route 1. Finally, ‘BB’ is the entry 
terminator. 
Search Table Defaults 
7.111 Search Table Defaults are listed in Table C-3 starting on page 
C-6 in Appendix C at the rear of the manual. 
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