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A

ABCD bits
and D3/D4 framing 54
and E&M protocols 51
and E1 trunks 51, 57
and ESF framing 55
and MFC-R2 protocols 51
and T1 trunks 51, 54
described 51, 80
AG Access
installing 10, 19
sample AG config files in 28
AG configuration file
Address statement in 29
and agmon 28
Board x statement in 36-37
ClockRef statement in 33
creating 28
described 9, 28, 80
DigitalMode statement in 29
EnableMVIP statement in 32
End Board statement in 36-37
FrameType statement in 30
Interrupt statement in 30
LineCode statement in 31
LineLength statement in 32
loopback 41
RunFile statement in 32
Runfile statement in 32
sample 28, 36
search path 28
TCP statement in 36-37
ag.rpt 35
AG-E1
compliance 105
connecting to network 24
described 2
LEDs 46
on-board oscillator 33
sample AG configuration file 38
sample configuration file 39
specifications 100
trunk interface 24
trunk interface connectors 22
versions 4
zero code suppression algorithms supported 59
agerror.log 35
agmon
and AG configuration file 28
described 9, 80
downloads TCP to board 7
output 35
running 34
search path 28
AG-T1
compliance 104
connecting to network 20
connecting with CSU 20
connecting without CSU 20
described 2
LEDs 46
on-board oscillator 33
sample configuration file 36-37
specifications 100
trunk interface 20
trunk interface connectors 22
zero code suppression algorithms supported 59
Alarm Indication Signal (AIS)
behavior in proper installation 48
described 80
specifications 103-104
status indicator LEDs for 46
a-law
described 58, 80
runfiles for 38
Alliance Generation Board (AG board) 80
Ally board 80
Alternate Mark Inversion (AMI)
described 59, 80
selecting using LineCode statement 31
audio signal processing specifications 101

B

bearer channel (B channel)
described 52, 81
in ISDN 52
on E1 trunks 52
on T1 trunks 52
Binary 8 Zero Substitution (B8ZS)
described 59, 81
selecting using LineCode statement 31
bipolar violation 59, 81
Blue Alarm
described 81
status indicator LED 46
board number
in Board x statement 36-37
Board x statement 36-37

C

cable
connecting in loopback configuration 25
MVIP bus 4
positioning boards on MVIP cable 17
supplied with AG-E1 boards 24
supplied with AG-T1 boards 22, 24
supplied with boards 4
Teflon 18
call progress analysis 3
CAS Mode
default MVIP connections in 74
E1 trunk to MVIP timeslot connection in 67
specifying in AG config file 29
T1 trunk to MVIP timeslot connection in 63
CEPT
described 81
interface specifications 104
selecting using FrameType statement 30
trunk interface 4, 24
channel 2
described 81
Channel Associated Signaling 67
channel associated signaling (CAS)
described 51, 82
mapping to MVIP timeslots (E1) 67
mapping to MVIP timeslots (T1) 63
on E1 trunks 51
on T1 trunks 51
channel service unit (CSU)
acquiring 20
described 20, 82
T1 trunk interface involving 20
channels 50
clock master
described 16, 82
determining source with ClockRef statement 33
positioning in system 17
clock slave
described 16, 82
determining with ClockRef statement 33
positioning in system 17
codec 82
Common Channel Signaling 68
common channel signaling (CCS)
described 52, 82
mapping to MVIP timeslots (E1) 68
mapping to MVIP timeslots (T1) 64
on E1 trunks 52
on T1 trunks 52
companding
choosing method 59
described 82
CT Access
described 7
installing 10, 19
MVIP switching under 7-8
Cyclic Redundancy Check (CRC)
described 83
status indicator LED for 46
cyclic redundancy check (CRC) 55

D

D channel 69
D3/D4 framing
described 83
selecting using FrameType statement 30
data channel (D channel)
described 52, 83
in ISDN 52
on E1 trunks 52
on T1 trunks 52
developer support ix
digital signal level 0 50
digital signal level 1 50
Digital Signal Processor (DSP)
described 83
DigitalMode 69, 75
DS-0 83
DS-1
described 83
DSP daughterboard
described 4, 83
DSP tasks requiring daughterboard 3
DSP resources
described 3
mapping signaling to if EnableMVIP=NO 74
specifications 100-101
DSX-1
described 20, 83
specifications 103
trunk interface 4
DTMF 3
tone detection specifications 102

E

E&M
and ABCD bits 51
described 84
E1
alternate mark inversion 59
B channel on 52
connecting to 24
D channel on 52
deriving MVIP clock from 33
described 84
framing 56
interfacing 2
mapping to MVIP timeslots 66, 70
NFAS not supported 52
ones density 59
RAW 69
voice encoding 58
zero code suppression 59
e1stat
described 84, 92
display 94
location 92
usage 93
using to verify installation 47
e1test 84
echo cancellation 4
EnableMVIP statement
default connections if EnableMVIP=NO 74
enabling/disabling MVIP switching with 32
Extended SuperFrame (ESF)
described 84
selecting using FrameType statement 30

F

Facilities Data Link (FDL)
described 84
in ESF framing 55
facilities data link (FDL)
in E1 framing 56
fax
DSP resources 3
NaturalFax 6
frame
described 84
E1 56
T1 53
framing
E1 56
selecting method with FrameType statement 30
specifications 103-104
T1 53
Framing bit (F bit)
described 85
framing bit (F bit)
in D3/D4 framing 54
in ESF framing 55
full duplex
described 85

H

hardware installation
connecting AG-E1 to network 24
connecting AG-T1 to network 20
installing in system (no MVIP connectivity) 16
installing in system (with MVIP connectivity) 18
requirements 13
summary 10
verifying 47
HDLC controller
described 85
mapping E1 signaling to 68, 70, 72
mapping T1 signaling to 64, 70, 72
HDLC controllers 75
High Density Bipolar 3 (HDB3)
described 59, 85
selecting using LineCode statement 31

I

I/O address
configuring hardware 13
configuring in AG config file 29
default hardware setting 13
described 13
specifications 101
in-band 85
interrupt
default 16
described 16
selecting in AG config file 30
specifications 101
ISA
and AG-T1/E1 boards 4
described 85
hardware requirements 13
specifications 101
ISDN
and Network Facility Associated Signaling 52
described 85
signaling 52

J

jammed bit ZCS
described 59, 85
selecting using LineCode statement 31
jumpers 12

L

line
described 85
loop start
adding line interfaces over MVIP bus 4
described 85
loopback
block 25
configuring hardware 25
described 85
sample AG configuration file 41
specifications 103-104
verifying installation using 48

M

M24 superframe 54
described 85
MC1 97
memory requirements 13
MF 86, 102
tone detection specifications 103
MFC-R2 51, 103
and ABCD bits 51
described 86
modem 3
mu-law
described 58, 86
runfiles for 36-37
multiframe 57, 86
multiplexing 86
MVIP 86
MVIP bus
described 4
positioning boards on 17
products from other manufacturers 4
specifications 105
using Teflon cable 18
MVIP clock
configuring master and slaves 16
configuring source with ClockRef statement 33
deriving from Sec8k clock 33
deriving from trunk clock 33
described 16
driving when board is isolated from network 33
MVIP switching
default connections if EnableMVIP=NO 74
described 4
enabling/disabling 32
model (MVIP-90) 72
model (MVIP-95) 70
products from other manufacturers 4
under CT Access 7-8
with swish 8
MVIP timeslots
mapping E1 trunk to 66, 70
mapping T1 trunk to 63, 70

N

Natural Media 6
NaturalFax 6
NaturalRecognition 6
NaturalText 6
DSP resources 3
Network Facility Associated Signaling (NFAS)
described 52, 86
mapping to MVIP timeslots 65
not supported on E1 trunks 52

O

off-hook 86
ones density
described 59, 87
out-of-band 87

P

PRI Mode
default MVIP connections in 74
E1 trunk to MVIP timeslot connection in 68
specifying in AG config file 29
T1 trunk to MVIP timeslot connection in 64
protocol
described 6, 87
differ in different countries 6
Pulse Code Modulation (PCM) 58, 87
pulse dialing specifications 102

R

RAW Mode
default MVIP connections in 74
specifying in AG config file 29
T1 trunk to MVIP timeslot connection in 65
RAW, for E1 69
Red Alarm
behavior in proper installation 48
described 87
status indicator LED 46
robbed bit signaling
and D3/D4 framing 54
and ESF framing 55
described 51, 87
runfile
described 9, 32, 87

S

Sec8k clock
configuring 33, 97
described 87, 96
driving MVIP clock with 33
showsig 87
signaling
controlled by TCP 6
methods 51
signaling routing mode
additional MVIP connections if EnableMVIP=NO 74
E1, if DigitalMode=CAS 67
E1, if DigitalMode=PRI 68
specifying in AG config file 29
T1, if DigitalMode=CAS 63
T1, if DigitalMode=PRI 64
T1, if DigitalMode=RAW 65
specifications 100
speech recognition
DSP daughterboard needed 4
DSP resources 3
NaturalRecognition 6
status indicator LEDs
diagram 46
what each one means 46
SW Utility
described 88
swish 8, 88

T

T1
alternate mark inversion 59
B channel on 52
CAS on 51
common channel signaling on 52
connecting through CSU 20
connecting to 20
connecting without CSU 20
D channel on 52
deriving MVIP clock from 33
described 88
framing 53
interfacing 2
mapping to MVIP timeslots 63, 70
Network Facility Associated Signaling on 52
ones density 59
ordering service 21
zero code suppression 59
t1stat
described 88, 92
display 47, 94
location 92
usage 93
using to verify installation 47
t1test 88
text-to-speech
DSP resources 3
NaturalText 6
time-division multiplexing (TDM) 53, 88
timeslots
described 88
E1 56
T1 53
trunk 88
trunk control program (TCP)
available for different countries 6
described 6, 89
how supplied 6
installing 10, 19
multiple 7
needed to interpret signaling on trunk 51
protocol-independent 7
runs on board 7
specifying in AG config file 7
trunk interface
AG-E1 24
AG-T1 20
connectors 22
pinouts (BNC) 24
pinouts (RJ48C) 22

U

uninterruptible power supply (UPS) 13

V

voice
encoding 58
playback 3
pulse code modulation (PCM) 58
recording 3
signal processing specifications 101

Y

Yellow Alarm
behavior in proper installation 48
described 89
status indicator LED 46

Z

zero code suppression (ZCS)
algorithms for 59
described 89
selecting algorithm using LineCode statement 31
specifications 103

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