Gabd-000038 Ver 07 OfficeServ 7200 System Description copyright
Electrical Specifications
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- Characteristics of the ISDN Interface Transmission
- 3.2.1.2 Signaling Type of the Dedicated Line
- 3.2.1.3 Signaling Type of the LAN
- 3.2.1.4 Signaling Type of the Station
- DTMF Push Button Dialing
3.2 Electrical Specifications3.2.1 Signal SpecificationsThe signal processing protocol is used for interfacing messages between the trunk lines/stations and system. Also, the signal processing protocol refers to the method for providing status information. 3.2.1.1 Signaling Type of the Trunk LineLoop StartWhen processing the loop start signals, the on-hook and off-hook status is controlled by the flow of the electric current. The loop is a closed loop trunk circuit or standard 2500-type set loop. OPEN END
CLOSED END X T E T E GND -48 VDC
(C.O.) Key Telephone Figure 3.1 Trunk Line Loop Start Signaling T1 Trunk LineThe electrical characteristics of the T1 trunk line comply with the ITU G.703 and G.704 standards. Table 3.9 Electrical Characteristics of the T1 Trunk Line
The signaling specifications and signaling method of the T1 trunk line should comply with the ITU G.703 and G.704 standards. E1 Trunk LineThe electrical characteristics of the E1 trunk line comply with the ITU G.703 and the G.704 standards. Table 3.10 Electrical Characteristics of the E1 Trunk Line
The signaling specification and signaling method of the E1 trunk line comply with the ITU G.703 and G.704 standards. Characteristics of the ISDN Interface TransmissionThe electrical characteristics of the ISDN (BRI) interface comply with the ITU I.430 and ETS 300 012 standards. Table 3.11 Electrical Characteristics of the BRI Trunk Line
The electrical characteristics of the ISDN (PRI) interface comply with the ITU I.431 and ETS 300 011 standards. Table 3.12 Electrical Characteristics of the PRI Trunk Line
The electrical characteristics of the Digital Line Interface (DLI) are shown in the table below: Table 3.13 Electrical Characteristics of the DLI Line
3.2.1.2 Signaling Type of the Dedicated LineElectrical Characteristics of the WIM InterfaceThe electrical characteristics of the V.35 interface are shown in the table below: Table 3.14 Electrical Characteristics of the WIM Interface (V.35 Interface)
The electrical characteristics of the RS-232C (V.28) interface are shown in the table below: Table 3.15 Electrical Characteristics of the WIM Interface (RS-232C Interface)
The electrical characteristics of the RS-449 (V.11) interface are shown in the table below: Table 3.16 Electrical Characteristics of the WIM Interface (RS-499 Interface)
3.2.1.3 Signaling Type of the LANThe electrical characteristics of the 10 BASE-T, which complies with the IEEE802.3 standard, are shown in the table below: Table 3.17 Electrical Characteristics of the LAN Interface (10 BASE-T)
The electrical characteristics of the 100 BASE-Tx, which complies with the IEEE802.3u standard, are shown in the table below: Table 3.18 Electrical Characteristics of the LAN Interface (100 BASE-T)
UTP Cable Type 
The UTP cable is divided into Straight-through UTP cable and Crossover UTP cable. The Straight-through UTP cable is used to connect the OfficeServ 7200’s LIM/PLIM module with other modules (MP20, MGI16, WIM). The Crossover UTP cable is used to connect between the LIM/PLIM modules only. The electrical characteristics of the 1000 BASE-TX, which complies with the IEEE802.3ab standard, are shown in the table below Table 3.19 Electrical Characteristics of the LAN Interface (1000 BASE-TX)
Table 3.19 Electrical Characteristics of the LAN Interface (1000 BASE-TX) (Continued)
Table 3.20 Electrical Characteristics of 1000 BASE-Sx/LX Fiber Optic
Mode Band
The mode band in the previous table represents the quality of the multi-mode optical fiber relative to the transmission speed. The unit is generally represented in MHz.Km, the optical signal’s bit rate (the flickering rate of the optical signal) multiplied by the maximum transmission distance. The higher value means farther transmission of higher optical signal with higher bit rate. When using the short-wave laser and the long-wave laser, a mode band is also specified for each type. Categories of UTP Cable
UTP Cables are classified into Straight-through UTP cable and Crossover UTP cable. The Straight-through UTP cable is used for connecting the LIM or PLIM module of OfficeServ 7200 to other modules (MP20, MGI16, WIM). The Crossover UTP cable is used for connecting only LIM (PLIM) module to LIM (PLIM) module. 3.2.1.4 Signaling Type of the StationDial Pulse Signaling TypeRatio-10 Pulse Per Second (PPS) Make/Break Ratio (M/B ratio)-33%: 66% (It can be adjusted by the software.) The minimum signaling time between digits-20 ms (It can be adjusted by the software.)
3.2.2 Transmission CharacteristicsAttenuation Attenuation between subscribers: Less than 6 dB Attenuation between the subscriber and local trunk line: Less than 0.5 dB Characteristic resistance of the line: 600 Weighted noise: Less than-65 dBm Crosstalk attenuation: Less than-68 dBm Frequency band: 300~3400 Hz Insulation resistance: More than 1 M 3.2.3 Line ConditionsLength for installation: Analog phones: Up to 1 km (When the AWG #24 cable is used) Digital phones: Up to 400 m (When the AWG #24 cable is used) Door phones: Up to 400 m (When the AWG #24 cable is used) AOMs: Up to 400 m (When the AWG #24 cable is used) Leakage resistance between lines: More than 20 k Leakage resistance between grounds: More than 20 k
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