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Preface Objectives This document provides introduction, device appearance, technical specifications, card functions, networking and applications, and network management of the RC3000E. It helps you quickly learn features and applications of the RC3000E. Versions The following table lists the product versions related to this document.
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Issue 02 (2016-03-01) Second commercial release Added the RC3000-SUB-DMT (B), RC3000-SUB-10FXS/FXO (B.10) (with hardware version of B.3 or later), RC3000E-UP-OPT-FE2E1 (B) (with hardware version of B.1 or later), and RC3000-SUB-RS24. Deleted the EOL card RC3000-SUB-DETH (B). ...
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Contents 7.1 FAQs ................................62 7.1.1 Any alarm is reported on the uplink interface of the RC3000E ............62 7.1.2 Voice is not continuous or data transmission fails when no alarm is reported ........62 7.1.3 LOF or RAL alarm is reported among alarms on the E1 interface ............63 7.1.4 Forget the password after modifying it ....................
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Figure 4-10 Positions of J1, J2, and J4 ......................... 47 Figure 4-11 PIN definitions of the RJ45 interface on the RC3000-SUB-RS24 ........... 48 Figure 5-1 Typical applications of the RC3000E (1).................... 55 Figure 5-2 Typical applications of the RC3000E (2).................... 55 Figure 5-3 Typical applications of the RC3000E (3)....................
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Table 3-16 Specifications of the Codirectional 64K data interface ..............15 Table 4-1 Definitions of PIN on the DB9 female socket ..................22 Table 4-2 LEDs on the RC3000E-UP-OPT-FE2E1 ....................22 Table 4-3 LEDs on the RC3000E-SUB-10FXS/10FXO ..................27 Table 4-4 Relationship between the SCIC PIN number and the E&M channel ........... 29...
Ethernet interface, V.35 interface, and asynchronous serial interface, and various voice interfaces, thus implementing cross-connection multiplexing of data, voice, etc. on the same line. Moreover, the RC3000E provides the uplink E1 interface card and PDH optical card to meet requirements of various access scenarios and aggregation modes.
The RC3000E can be centralized managed by Raisecom NView NNM platform, which facilitates management and configurations of the local and remote ends. Thus, you can effectively and quickly manage and maintain the RC3000E.
Interfaces DIP switch Slots 2.1 Appearance Figure 2-1 and Figure 2-2 shows the appearance of the RC3000E. Figure 2-1 Front appearance Figure 2-2 Rear appearance 2.2 LEDs Table 2-1 lists LEDs on the RC3000E. Raisecom Proprietary and Confidential...
Green: the power is working properly. PWR/PWR1/PWR2 Off: the power is working improperly. Green: the clock of the RC3000E works in master mode. MCLK Off: the clock of the RC3000E works in slave mode. Green: the link is connected properly.
Table 2-3 lists the DIP switch of the RC3000E. Table 2-3 DIP switch Description ON: the clock of the RC3000E works in master mode. OFF: the clock of the RC3000E works in slave mode. By default, the switch is OFF.
Raisecom RC3000E (P100R001) Product Description 4 Cards Panel Function The RC3000E-UP-8E1 is an 8-way uplink interface card on the RC3000E. It can transmit 8 ways of E1 services. Support channel protection. Support configuring the 8-way E1 interface on the card to balanced or unbalanced mode through a DIP switch.
3: Type [1] 4: Type [0] Reserved Reserved Type [2: 4] = 100: the RC3000E-UP-8E1-BL Type [2: 4] = 011: the RC3000E-UP-8E1 4.1.4 Technical specifications Dimensions: 155 mm (Width) × 100.5 mm (Depth) × 25 mm (Height) Raisecom Proprietary and Confidential...
4 Cards 4.2 RC3000E-UP-4E1 4.2.1 Appearance and functions Panel Function The RC3000E-UP-4E1 is an uplink interface card on the RC3000E. It can transmit 4 ways of unbalanced E1 services. Support channel protection. The E1 interface supports bypass. When the power is down, the No.1 way is directly connected to the No.2 way and the No.3 way is directly connected to the No.4 way.
4 Cards 4.3 RC3000E-UP-4E1-BL 4.3.1 Appearance and functions Panel Function The RC3000E-UP-4E1-BL is an uplink interface card for 4-way balanced E1 on the RC3000E. It can transmit 4 ways of E1 services. Support channel protection. The E1 interface supports bypass. When the power is down, the No.1 way is directly connected to the No.2 way and the No.3 way is directly connected to the No.4 way.
4 Cards Function The RC3000E-UP-OPT-FE2E1 is an uplink subcard for Ethernet and 8E1 multiplexing on the RC3000E. It can multiplex the local 100 Mbit/s Ethernet services, 8-way E1 services, and network management data to the optical interface for transmission to the remote end.
RC3000E to the RJ45 head. When the interface impedance is 75 Ω, use the CBL-E1-DB9M/4BNCF-2.5m cable to connect the RC3000E to the BNC female interface. When the interface impedance is 75 Ω, "+" in the table refers to the core of the ...
2.5m cable to connect the RC3000E to the RJ45 head. When the interface impedance is 75 Ω, use the CBL-E1-DB9M/4BNCF- 2.5m cable to connect the RC3000E to the BNC female interface. 4.4.8 Technical specifications Dimensions: 155 mm (Width) × 100.5 mm (Depth) × 25 mm (Height) 4.5 RC3000-SUB-10FXS/10FXO...
Support polarity inversion. Support high-impedance recording. The RC3000E-SUB-10FXS/10FXO of B.10 or later (with the PCB version of B.3 or later) supports high-impedance recording, namely, the FXO-R voice module and recording. In slot configuration mode, use the show version command to view the PCB version.
RC3000-SUB-10FXO-R < 2.5 W 4.5.6 Application The RC3000E-SUB-10FXS/10FXO of B.10 or later (with the PCB version of B.3 or later) supports high-impedance recording, with the networking and function shown in Figure 4-2. The FXO-R interface on the RC3000E-SUB-10FXO is connected to the telephone line of the recorded telephone in physically parallel mode.
TS1 of No.1 E1 of the RC3000E-SUB- 10FXS in slot 1 (No.1 way voice services of the RC3000E-SUB-10FXS) and TS1 of No.1 E1 of the RC3000E-SUB-10FXO in slot 3 (voice 1 of the RC3000E-SUB- 10FXO). ...
Grey background with – purple loop The RC3000E, as a Tie line device, uses the E&M signalling type of Type V, as shown in Figure 4-4. Figure 4-4 E&M signaling type 4.6.4 Technical specifications Dimensions: 70 mm (Width) × 167.5 mm (Depth) × 20 mm (Height) 4.7 RC3000-SUB-DETH×2...
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When manually allocating channels, you can configure different limitations according to different positions of the card. The RC3000E supports 4 ways of E1 and each E1 is a user group. In configuration, 1, 2, 3, and 4 are used to stand for the No.1, No.2, No.3, and No.4 E1.
4.9 RC3000-SUB-DV24 4.9.1 Appearance and functions Panel Function The RC3000-SUB-DV24 is the standard V.24 interface card on the RC3000E. The interface rate is 64 kbit/s or 128 kbit/s. Provide 4 channels and occupy eight 64K channels. The number of occupied channels depends on the hardware and cannot be changed.
4.10 RC3000-SUB-D232 4.10.1 Appearance and functions Panel Function The RC3000-SUB-D232 is the standard RS232 interface card on the RC3000E. Provide 8 channels, the number of which depends on the hardware and cannot be changed. Provide 4 RJ45 interfaces, each of which corresponds to 2 channel interfaces.
DB interface of other devices. In this case, the ground cable is connected first and the RS232 serial interface will not be damaged when Potential Difference (PD) exists between the two ends. Moreover, the RS232 interface of the RC3000E supports electrostatic protection to avoid damage on the serial interface of RS232 interface card.
4.11 RC3000-SUB-D485 4.11.1 Appearance and functions Panel Function The RC3000-SUB-D485 is the RS485 interface card on the RC3000E. Provide 8 channels, the number of which depends on the hardware and cannot be changed. Provide 4 RJ45 interfaces, each of which corresponds to 2 channel interfaces.
A is the positive end for receiving and sending data of the RS485 interface card. B is the negative end for receiving and sending data of the RS485 interface card. The RS485 interface card of the RC3000E supports electrostatic protection to avoid damage on the serial interface of RS485 interface card. Meanwhile, all interface cards support hot-plugging.
4.13 RC3000-SUB-DC64K 4.13.1 Appearance and functions Panel Function The RC3000-SUB-DC64K is the 4-way codirectional 64K data card on the RC3000E. Interface signal rate is 256 kbaud. Each card has 4 channels and occupies four 64K channels (each channel occupies one 64K channel). The number of occupied channels depends on the hardware and cannot be changed.
5.1 Typical applications of device Figure 5-1 Typical applications of the RC3000E (1) As shown in Figure 5-1, it is a typical point-to-point networking application of the RC3000E. Both the two RC3000E devices can transmit voice and data services to realize point-to-point transmission.
Figure 5-3 Typical applications of the RC3000E (3) As shown in Figure 5-3, in the remote end, the RC3000E devices are cascaded in chain and each RC3000E device can transmit voice and data services; in the local end, the RC3000-15 can aggregate services in large capacity.
FE2E1 serves as the uplink card of the RC3000E. The PCM in station B accesses the transmission network through the E1 interface and interconnects the 2E1of the RC3000E in station A. Station B can interact up to 2 ways of E1 services with station A. ...
RC3000E in station A to enter the optical channel through it for service interaction with the RC3000E in station C. The RC3000E-UP-OPT-FE2E1 serves as the uplink card of the RC3000E. Station B can interact up to 2 ways of E1 services at the 64 kbit/s with station C.
Figure 5-8 Networking scheme in mode 3 The RC3000E in station A connects the RC3000E in station B through fiber and the RC3000E-UP-OPT-FE2E1 serves as the uplink card of the RC3000E. Station A can interact 8 ways of E1 services at the 64 kbit/s with station B.
6.1 Network management through E1 channel Figure 6-1 Network management through the E1 channel When the Central Office (CO), the RC3000E (or the RC3000-15), networks with the remote RC3000E through the E1 channel, the NView NNM system can manage the network through the E1 channel (Sa bit or independent timeslot).
6.2 Network management through optical channel Figure 6-2 Network management through the optical channel The RC3000-15 can manage the RC3000E through the optical channel or E1 channel. In this case, the optical channel is selected as the network management channel generally.
7.1.2 Voice is not continuous or data transmission fails when no alarm is reported This problem is usually caused by the multiframe asynchronization. You can detect whether there is multiframe asynchronization alarm on the E1 interface of the RC3000E or not. If yes, you can check the following aspects: ...
You can check the clock configurations of the RC3000E and other devices on the whole network. If the problem is not solved after checking, contact Raisecom technical support engineers. 7.1.4 Forget the password after modifying it Contact Raisecom technical support engineers.