PDH120-100M_Series user' manual
We are thankful for you purchasing PDH120+100M(Multi Service Transmitter-155)synthetic service transmission equipment produced by our company.
To use the products, read the user manual carefully.
Scope of Application
The user manual belonging to PDH120+100M synthetic service transmission equipment is exclusive user manual, suitable for the products as follows:
l PDH120+100M、DPDH120+100M、KPDH120+100M、KDPDH120+100M
l PDH120V1+100M、DPDH120V1+100M、PDH120V2+100M、DPDH120V2+100M
l PDH120+400M、DPDH120+100M
l PDH120V1+400M、DPDH120V1+100M、PDH120V2+100M、DPDH120V2+100M
Notice
The manual with any form must not copied, pirated or delivery in any form in network, unless under the written authority of our company. The trademarks in the text are properties of the owner.
Our company has rights to correct the quality of products and consumer's manual at any time instead of informing consumers ahead of time.
Our company will not take responsibility of the failure of product function, affecting another product or the human injury because of correction in any form for quality of products and the consumer's manual.
Within the quality insurance, due to the problem of quality of products itself, resulting in improper use, our company will be responsible for changing the products.
Version Records:
Date |
Version |
Description |
28 Nov. 2008 |
V1.0 |
Current Version Released |
|
|
|
III. Specifications on Equipment Principle
V. Warning Direction and Interface
VIII. Protection and Replacement Norm for Dual Optical Path
8.3 Network Management Function
X. Data Exchange Channel of E1/V.35
XI. Solution to Common Malfunction
11.1 Optical Lost Warning: optical synchronization loss indicator light (SYLOS, RED) is on
11.4 The High Rate of Error Code
12.1 E1 Port Electronic Features
12.2 Optical Interface Feature:
12.3 Management Port and Extended Series Port Feature
12.5 V.35 Interface Electronic Features:
1. The Way of Making Joining Line for Management Port
2. Making Joining Line for EI Port of PDH120+100M
3. The Connecting Way of Direction Current
INSTRUCTION FOR SAFTY USE
PDH120+100M SERIES MULTI-SERVICE TRANSMISSION EQUIPMENT WITHIN THE SCOPE OF DESIGN AND USE ARE CHARACTERIZED BY WELL-RELIABLE FUNCTION, HOWEVER, WHICH SHOULD BE AVOIDED DAMAGING AND DESTORYING OPTICAL MODEM THROUGH HUMAN ACTIVITY.
l TO READ THROUGH THE MANUAL CAREFULLY AND PREVERSE THE MANUAL WELL TO GIVE A GUIDE AND HELP IN THE FUTURE;
l TO PREVENT THE EQUIPMENT FROM CLOSE TO WATER OR WET GND;
l TO BAN FROM LAYING ANY THINGS ON POWER OR CABLE OR MAKING THE CABLE TYING OR COVERING, AND THEN LAY DOWN THE PLACE BEING NOT VULNERABLE TO TOUCH;
l POWER PLUG AND OTHER EQUIPMENT JOINT PARTS OUGHT TO CONNECT STABLY EACH OTHER AND KEEP REGULAR EXAMINATION.
l TO BE SURE TO TAKE CAREFULLY TO CONNECT THE LINES UNDER THE MARK OF CONNECTING POLE WHEN THE POWER LINE IS LINKED. THE USING POWER MUST BE COMPLY WITH THE BELOW PRINCIPLES:
l DIRECT CURRENT -48V TYPE: -36 ---- -72V
l ALTERNATING CURRENT 220V TYPE: 220V±20%, 50 HZ
l TO KEEP PAYING ATTENTION TO CLEARITY EQUIPMENT AND MAY USE SOFT-AND-COTTON CLOTH TO BRUSH AT NECESSARY TIME;
l AVOID WALLING UP INTAKE;
l IN THESE CASES, PLEASE TURN OFF THE POWER IMMEDIATELY AND TIMELY KEEP IN TOUCH WITH OUR COMPANY:
1. WATER INVADES EQUIPMENT;
2. EQUIPMENT WITH DAMAGE OR DAMAGE OF SHELL;
3. EQUIPMENT WITH WORKING FAILURE FUNCTION OR THE QUALITY FOR SHOW WITH COMPLETE CHANGE;
4. EQUIPMENT TO COME OUT SCENT, SMOKE OR NOISE;
l PLEASE DON’T TO FIX EQUIPMENT IN PERSONAL, UNLESS WITH THE EXCEPTION OF DEFINITE INDICATION IN MANUAL
PDH120+100M series is integrated service transmission equipment manufactured by our company. With its self-developed special-purpose integrated circuit. It combines standard 2M traditional TDM service interface with 10/100Base-Tx Ethernet data service interface, and convert the data into high-speed optical signals to transmit over fiber, making it possible transmitting both high-speed data service and traditional TDM service over the same pair of fibers, meeting user’s requirements for integrated access of high-speed data service and traditional TDM service with the minimal cost. The advanced dual-light-beam switching and restoration mechanism enables the equipment to achieve 1+1 protection for services.
PDH120+100M Multi-Service Transmission Equipment is featured with easy maintenance, Plug and Play, as well as providing centralized local-end equipment and integrated network control.
Name |
Fiber Interface |
E1 |
V.35 |
Ethernet |
RS232 |
Oderwire |
Control |
Structure |
PDH120+100M |
1 |
4 |
|
1 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
PDH120V1+100M |
1 |
4 |
1 |
1 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
PDH120V2+100M |
1 |
4 |
2 |
1 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
PDH120+400M |
1 |
4 |
|
4 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
PDH120V1+400M |
1 |
4 |
1 |
4 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
PDH120V2+400M |
1 |
4 |
2 |
4 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
KPDH120+100M |
1 |
4 |
|
1 |
1 |
|
YES |
INTEGRATED CARD |
DPDH120+100M |
2 |
4 |
|
1 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
DPDH120V1+100M |
2 |
4 |
1 |
1 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
DPDH120V2+100M |
2 |
4 |
2 |
1 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
DPDH120+400M |
2 |
4 |
|
4 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
DPDH120V1+400M |
2 |
4 |
1 |
4 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
DPDH120V2+400M |
2 |
4 |
2 |
4 |
1 |
YES |
YES |
STANDARD, 19 INCH×1U |
KDPDH120+100M |
2 |
4 |
|
1 |
1 |
|
YES |
INTEGRATED CARD |
· Provide 4 E1 digital ports, 75Ω~120Ω impedance options;
· E1 & V35 channel support BERT(Bit Error Rate Test)
· Provide an order line port;
· Provide a RS232 asynchronous data port;
· V.35 support 7 clock mode (DCE: location, restoration, exterior input; DTE: send RC receive TC, send RC receive RC, send TC receive TC, send TC receive RC) is suitable for all V.35 request for port clock mode on the market at present;
· V.35 port clock mode, phase, optional function for time slot and E1/V.35 exchange function for data channel can have access to Network Software Arrangement;
· The Ethernet ports are featured with10/100Base-Tx self-adaptive; Bandbroad can be adjusted on the basis of 0.5M unit; 100M maximum;
· Support orderwire;
· Provide a RS232 asynchronous data port;
· Provide a management port for centralized monitoring and supporting system upgrade;
· Provide a set of control switch for device testing and maintenance;
· Dual optical port to reach 1+1 service protection;
· Based on ASIC, simple circuit, low power consumption and high reliability;
· Being suitable for multiple power environment of –48VDC or 220VAC;
· Standard 1U rack with the characteristics of small size, light height, high reliability and easy for installation;
· PDH120+100M、DPDH120+100M can provide centralized shelf cards structure
III. Specifications on Equipment Principle
2048Kb/s (E1) data signal is conveyed to multi-service transmission equipment, which type of code is HDB3 code. After unipolar and bipolar change, HDB3 code becomes bipolar code. Then special integrated chip pick up clock, decode the signal code through adjustment of code and multiplex to code of driving optical signal. 10/100Base-Tx Ethernet data signal is converted into MII port data and transmitted to the special integrated chip. The data is copied to code of driving optical signal, and then sent out by the driving circuit.
Received optical signals enter into optical receiver, and are transmitted into the special integrated chip, through NRZ signal and clock signal generated by balanced amplification and circuit, to draw clock and decode. Through code rate resetting circuit and lock phase loop with inner figure restore and become 2.048Mb/s (EI) signal and MII Ethernet signal. Then the HDB3 Signal and 10/100Base-Tx Ethernet signals are sent out by the output driving circuit.
Figure 3.1 Equipment Principle
1. After making sure installing location of the optical modem and make clear of the place, you will transfer the box with optical modem to installing location;
2. Please pay attention to direction of box and make sure its front upward;
3. Opening up box, then taking out equipment and accessories.
Optical modem is packaged with special box with protection from shock. There are two sets in each package box, which include relative accessories. Please examine it and check whether or not it conforms to bill.
(Optical modem with inner structure is characterized by precision. So pay close attention to gentle carry and take and avoid fiercely shock not to affect the function of optical modem. If you find out damaged and lost any parts for optical modem in the course of transportation, you should inform after-sales department in our company immediately. Then we will make a proper and sound solution as soon as we could.)
To check whether or not the optical modem is perfect and out of use and the condition of power.
1. Taking out the equipment and checking outlook, then fixing on the frame or another equipment to ensure the sound installation;
2. Making choice of power (AC220VorDC-48) based upon the structure of equipment, which abides by the connection of line of power correctly. To test whether or not the power is well function through electricity. Indicator light is on (POWER, GREEN) with proper work; Whether or not working condition is well-function or System working dictator light flashes (RUN, GREEN); Without connecting fiber, optical module system working indicator light (WORK, GREEN) is off but optical synchronization loss indicator light (SYLOS, RED) is on;
3. Connecting with remote equipment linking to fiber, optical module indicator light under the proper working condition (WORK, GREEN) is on and optical synchronization loss indicator light (SYLOS, RED) is off; Provided in the case of working improperly, relative staff need to check whether or not light channel is working properly and fiber at the bottom have the sound function for sending and receiving and remote equipment is electrified.
4. Connecting with signal line—E1, if users’ equipment have worked properly, signal E1 (LLOS, RED) related to light is off. The way of making E1 ‘s joining lines refer to appendix.
1. Power: To make sure to connect power line in connection, to switch on power switch. If the power indicator light (POWER, GREEN) is on, it shows power is working properly;
2. Equipment Operation: having been electrified, equipment enters into operation. When system working indicator light (RUN, GREEN) is flashing, it indicates proper operation for equipment;
3. Optical Interface: When equipment works properly, fiber at the bottom will put optical interface loopback and optical module working indicator light (WOEK, GREEN) is on. If optical synchronization loss indicator light (SYLOS, RED) is off, it indicates the optical interface is perfect;
4. Optical Interface Switch: When equipment is working properly, optical path 1+1 working indicator light (STA, YELLOW) is off, which indicates that working channel is 0 in the optical channel (tacitly accepted working channel). If taking out link0 with fiber in optical interface, stimulating optical path will result in failure. Then optical path 1+1 working indictor light (SAT, YELLOW) is on, indicating the service have been switched to channel one.
5. E1, V35 Interface: When equipment operates properly, technological staff will optical loop automatically and use error code instrument to test error code. If nothing, it is perfect;
6. Ethernet port:When the equipment works properly, use two computers that have NIC card, to connect the Ethernet interfaces of the equipment.,Ping one computer from another computer to test whether the receiving/sending packet is correct.
7. RS232 Interface: When equipment operates properly, technological staff will loop optical interface automatically and connect RS232 interface with PC’s series interface. "Super Terminal”(baud rate is 9600bit/s) operates on PC, which prevents from re-showing option of local character. Then keying into testing character and displaying character that is received in windows. It is the same with inserted character to indicate that RS232 interface is working properly.
V. Warning Direction and Interface
Optical modem with series of PDH120 provides integrated warning direction and condition direction. Red light shows serious warning and system cannot work properly; Green light shows the existence of warning and system works well basically; Green light shows system is working perfectly. Specific definition to equipment with each model between its front and back and direction light is as follow:
· Orderwire (HANDSET) Interface:
Definition |
Operation |
Loopback |
BERT |
---|---|---|---|
POWER, Green |
Power indicator blinking in normal conditions. |
|
|
RUN, Green |
Running in normal conditions; under the status of dipswitch control; on ( on 1/4 seconds + off 3/4 seconds, and then cycle); under the mode of network control, off ( on 3/4 seconds + off 1/4 seconds, and then cycle) |
|
|
STA, Yellow |
If under the model of dual optical interface, operation is off on the main optical interface meanwhile operation is on the spare optical interface; The model of single optical interface is off usually. |
|
If condition of non-synchronization flashes, condition of synchronization with non-error code is off and error code <10-3 is on, error code>10-3 flashes, keeping the same step with the condition of the most serious error code. |
SYLOS/1E-3, Red |
Optical interface data is off naturally. Optical synchronization loss or 10-3 error code is on. |
|
|
1E-6, Yellow |
Optical interface data is off naturally.10-6 error code is on. |
|
|
Fiber Interface WORK, Green |
Optical take-over power is on when performed well or it is off. |
|
|
RA, Yellow |
If remote optical loss or synchronization loss, warning is on, remote call (press down the switch of CALL) is on. |
|
|
E1 Interface WORK, Green |
Local interface related to E1 that has a connection is off. Without connection, it is on. |
Flashing indicates local end loopback |
Flashing indicates that the local end EI port receives the testing code. |
AIS, Yellow |
Remote interface related to E1 that has a connection is off. Without connection, it is on. |
Flashing indicates remote end loopback |
Flashing indicates that the local end EI port sends the testing code. |
FSL, Red |
V.35is is working for the way of framed E1. And 2M data’s frame synchronization loss. |
Flashing indicates remote end loopback |
Flashing indicates that the local end EI port receives the testing code. |
TD, Green |
When V.35 is sent (optical direction), its result comes out the changing flash. |
|
|
RD, Green |
After V.35 data is received from optical interface, its result come out the changing flash. |
|
|
ULK, Yellow |
The send of V35 and the set of clock model don’t come out the signal. |
Flashing indicates local end loopback |
Flashing indicates that the local end EI port sends the testing code. |
10/100, Green |
Ethernet Port indicator is on under the working conditions of 100M |
|
|
L/A, Green |
Ethernet Port indicator is on after it has been connected, and flashes when data is transmitted. |
|
|
· Indicator Definition for Card-Type Equipment
Definition |
Operations |
Loopback |
BERT |
---|---|---|---|
P, Green |
5V power is on under normal conditions |
|
|
R, Green |
闪烁 |
|
|
ST, Yellow |
Dual optical interface: on=operating on the spare optical interface; the model of single optical interface is off under normal conditions. |
|
If condition of non-synchronization flashes, condition of synchronization with non-error code is off and error code <10-3 is on, error code>10-3 flashes, keeping the same step with the condition of the most serious error code
|
SL, Red |
Optical interface data is off naturally. Optical synchronization loss or 10-3 error code is on. |
|
|
E6, Yellow |
Optical interface data is off naturally.10-6 error code is on. |
|
|
(OPT)W, Green |
Optical take-over power is on when performed well or it is off. |
|
|
RA, Yellow |
If remote optical loss or synchronization loss, warning is on |
|
|
(E1)W, Green |
Local interface related to E1 that has a connection is off. Without connection, it is on. |
Flashing indicates local ed EI loopback |
Flashing indicates the local EI port receives the testing code |
A, Yellow |
Indicating that the local end EI port is under the mode of AIS; on when AIS exists |
Flashing indicates remote end EI loopback |
Flashing indicates the local EI port sends the testing code |
S, Green |
Ethernet port: on=100M, off=10M |
|
|
L, Green |
When the Ethernet port is connected: on=connection, off=data transmission |
|
|
· Orderwire(HANDSET) Interface: Relative staff will insert special handset of orderwire into interface then and communicate through the orderwire; When staff press down the CALL button of local port , remote interface set will come out buzz ,which indicates the other side may communicate;
· Buzzing Warning: When optical loss-that is- optical synchronization loss indicator light (SYLOS, RED) is on, system provide serious warning and buzzer of equipment begins to sound; At this time staff press the button of CALL, which shut down the buzz.; If staff press the button of CALL again , the buzz will sound once again;
· Management Interface(CONSOLE): it connects with main computer, which result in the recognition of function of management;
· E1 interface locates the back side of equiment;
· Dipswitch: ( Desktop Equipment)
Figure 5.1 Definition of Dipswitch Switch
Dip Switch1 and 2: To maintain the option of testing model(OFF=1、ON=0);
00= Engineering BERT test;
01= The loopback of remote equipment and to control remote equipment E1, V35 interface to switch to loopback of counter-direction and the max time of loopback is limited to an hour;
10= Company preservation;
11= Normal model;
Dip Switch 3, 4, 5, 6, 7, 8: To maintain option of test channel
Corresponding to E1 interface 1, 2, 3, 4, V35 interface 1 and 2
OFF=Normal , ON=Maintain test model;
Dip switch setting of ex-factory all are "OFF”. Having been finished maintaining and checking, staff should place dipswitch in the place of ex-factory.
The Ethernet parameter setup for PDH120+100M can only be configured through network control, including Ethernet port setup, priority setup, etc.(shown in figure 6.1 and 6.2 below)
Figure 6.1 Ethernet Parameter Setup fro PDH120+100M
Figure 6.2 Ethernet Parameter Setup for PDH120+400M
· Flow Control Enablement: To specify whether the Ethernet port supports 802.3x flow control protocol;
· Channel Isolation: To separate the Ethernet channel by appropriate choices;
· Package Length Selection: To select the longest package for the Ethernet port;
· Port Setup: To select the appropriate working mode for Ethernet port, including auto-negotiation, 10M half-duplex, 10M full-duplex, 100M half-duplex, 100M full-duplex; to use or close the control port by selecting or canceling the command of "open”;
· Priority Setup: To configure high-priority Ethernet port with the options of "high-priority transmission column” and "high-priority port selection”.
Default Setup: Flow Control enabled; Channel Isolation disabled; Ethernet Package Length for 1518/1522; Ethernet Port Transmission with High/Low-Priority; Ethernet Port Connection with Auto-Negotiation; Ethernet Port enabled.
Note: The parameter for PDH120+100M is configured with dedicated software which can be acquired by contacting with us or downloading from our website.
The multiple parameters configurations for V.35 port can be finished through network control, including transparent or frame EI selection, launch clock selection, latch clock selection, frame EI, timeslot selection, etc. (As shown below):
Figure 7.1 DCE Mode –Parameter Setup for V.35
Figure 7.2 DTE Mode-Parameter Setup for V.35
· Mode Selection: To select equipment working mode and DCE or DTE, under which clock parameters will be different;
· CRC Selection: To decide whether the frame E1 supports CRC 是否支持CRC check;
· Launch Clock Edge Selection: To select clock edge for communication on the basis of the equipments connected with V.35;
· DCE Clock Type Selection: To select clock source—main clock (Crystal Oscillator Clock ), subordinate clock (E1 extracted clock), external clock (V.35 interface ETC clock);
· DTE Clock Type Selection: To specify clocks used to send and receive data;
· Timeslot Selection: To specify the transparent 2048K or frame n×64k for V.35 interface.
Default Configurations: DCE mode, main clock, CRC selection disabled, launch clock edge in the same direction, transparent mode.
Note: Parameter setup for MST155 is configured by dedicated software which can be acquired by contact with us or downloading from our website.
VIII. Protection and Replacement Norm for Dual Optical Path
PDH optical transmission equipment with dual port can realize 1+1 service protection. Protection for operation mechanism is divided into two parts –replacement and reset. The former one is that working channel is switched to spare channel when working channel happens to malfunction; The latter one is that spare channel is switched to original working channel because of replacement and solution to malfunction of original working channel.
Taking the mechanism of dual send and sound receive is that send port will be sent simultaneously in the same service in two optical fiber; Main channel based upon fixed (ex-factory---default is 0.) when send port is normal. When main channel happens to malfunction and spare channel is normal, the main channel within 50ms can switch to spare channel to receive data and give out warning for network management.
Malfunction of Optical Channel Include:
· Optical signal disappear.
· Frame with malfunction loss.
· Channel error code surpass the limitation.
Network management can configure can decide whether or not to reset and reset wait time after reset. Main channel may be on-and-off phenomenon in the course of malfunction rewetted. In order to avoid frequent replacement, continue previous operations after the channel keeps stable. Please refer to SDH technological standard. Resetting wait time is 5-12 minuets in usual condition.
8.3 Network Management Function
· Network management may decide working channel and protection channel;
· Network management may compulsorily switch to certain channel;
· Network management may set after replacement whether or not to reset wait time;
MST155B/C series optical modem support test for maintenance by network management or dipswitch with loopback, BERT and so on.
· Controlling Way of Maintaining Test
Ø Equipment with ex-factory is under the condition of default. Under the condition, switch of dip switch is available.
Ø The equipment is characterized by the choice of between "maintain operation controlled by switch of dip switch ”or "maintain operation controlled by network management” and it possesses the function of protection when cut down electricity.
Ø "Maintaining operation controlled by network management” must be setted in advanced to make test for maintenance through network management.
Ø To operate the clear out cut-off electricity is through maintenance to network setting.
· BERT Test Principle
The inner of equipment is laid simple error code instrument that may through dip switch or inner error code instrument to reach data channel of receive and send. Panel indicator light may direct the synchronous condition , the class of error code (non-error code , <、>). And network management may memory time of coming out error code and the number of error code. BERT need loopback of E1 interface, local E1 in series and other assisted way, etc.
X. Data Exchange Channel of E1/V.35
· (D)PDH120Vn+100M、(D)PDH120Vn+400M support data channel optional exchange of E1/V.35 so that V.35 channel is easily corresponding to E1channel of remote equipment. (Our company ‘s other 4E1, 8E1 optical transfer equipment);
· Network management may choose V.35 data, which take up original channel model or choose regular E1 channel model to reach data channel exchange of E1/V.35
PDH120V1+100M、DPDH120V1+100M、PDH120V1+400M、DPDH120V1+400M
Ø channel exchange(default <ex-factory>)
CH1 CH2 CH3 CH4 CH5
E1 ch1 |
E1 ch2 |
E1 ch3 |
V35 |
E1 ch4 |
Ø take up original channel
CH1 CH2 CH3 CH4 CH5
E1 ch1 |
E1 ch2 |
E1 ch3 |
E1 ch4 |
V35 |
PDH120V2+100M、DPDH120V2+100M、PDH120V2+400M、DPDH120V2+400M
Ø channel exchange(default<ex-factory>)
CH1 CH2 CH3 CH4 CH5 CH6
E1 ch1 |
E1 ch2 |
V35ch2 |
V35ch1 |
E1 ch4 |
E1 ch3 |
Ø take up original channel
CH1 CH2 CH3 CH4 CH5 CH6
E1 ch1 |
E1 ch2 |
E1 ch3 |
E1 ch4 |
V35ch1 |
V35ch2 |
XI. Solution to Common Malfunction
11.1 Optical Lost Warning: optical synchronization loss indicator light (SYLOS, RED) is on
· check connection optical fiber with optical modem, whether or not, is perfect;
· Whether or not optical fiber with receives and send is connected each other in the opposite direction;
· To check optical interface of equipment, whether or not , is well-function;
· To check whether or not optical link is good to test optical receive power.
Each E1 has two indicator lights , namely, AIS(yellow) and WORK(green). WORK light is a kind of working indicator which will be on when working in normal conditions; AIS light is a warning light for receiving full "1”code.
· When WORK light is off, relative staff should check joining line of E1 remote interface to connect availably or not, examine quality and extension of joining line and test operation of all users is well-function or not;
· When WORK light is on , check the working condition for equipments of all users.
Local interface RA light is on, which indicates the remote interface optical receive signal or synchronization loss with the remote interface. Relative staff should check send optical signal with local interface and receive optical signal with remote interface and optical link.
11.4 The High Rate of Error Code
To check interface impedance is set rightly or not. If interface impedance is right, relative staff examine segment by segment through error code instrument, taking removing way to check the cause of malfunction coming from local optical path or the equipment itself
12.1 E1 Port Electronic Features
· Line rate: 2048Kbps,±50ppm
· Line code: HDB3
· Impedance: 75Ω (unbalanced) or 120Ω (balanced)
· Digital port electronic features: ITU—TG.703, pulse wave is consistent with the templet (as shown in figure 12.1);
· Jitter transfer function: ITU-T G.823
· Input jitter tolerance: ITU-T G.823
· Output jitter: ITU-T G.823
· Level: ±2.37V±10% or ±3.00V±10%
· Interface connector: RJ45, CC4 coaxial or BNC coaxial
Figure 12.1 E1 Line Code Wave
12.2 Optical Interface Feature:
· Output Power:-3dBm~-8dBm
· Receiving Sensitivity: -33dBm~- 40dBm
· Fiber Interface: dual SC/ dual FC/single SC;
· Applicable Fiber: single mode, multi-mode optical;
Definition of Optical Interface:
TX
|
RX
|
Figure 12.2 Definition of Optical Interface
12.3 Management Port and Extended Series Port Feature
· Interface: RS232 port;
· Interface level:RS-232 level;
· Connector: RJ-45 ;
· Date rate: 57600bit/s;
· Extension port: Up to 19200bit/s.
Management Port Re-232:
Figure 12.3 Management Port RE-232Port
Extended Series Port:
Fingure12.4 Extended Series Port
· Port: 10/100Base-Tx
· Port Specification: IEEE-802.3
· Port Rate: 10/100M self-adaptive
· Bandbroad: Adjusted on basis of 1M unit, 100M maximum
Definition of Ethernet port:
Figure12.5 Definition of Ethernet Port
Note: The production of Ethernet interface shall conform to standards. Please refer to appendix 2 for details.
12.5 V.35 Interface Electronic Features:
· Port Rate: n×64K;
· Without traffic control, transparent transmission;
· Connector: DB25 slot;
· Working mode: DCE or DTE (optional);
Definition of V.35 Port(DCE Mode: E1 Main Clock/E1 Subordinate Clock/V.35 Exterior Clock):
Ping |
M/34 |
I/O |
Definition |
Functions |
---|---|---|---|---|
1 |
A |
|
GND |
Signal GND |
2 |
P |
I |
TDA |
Transmit data line A |
3 |
R |
O |
RDA |
Receive data line A |
4 |
C |
I |
RTS |
Transmit requestment |
5 |
D |
O |
CTS |
Transmit permission |
6 |
E |
O |
DSR |
Prepared data equipment |
7 |
B |
|
GND |
Protection GND |
8 |
F |
O |
DCD |
Data carrier detect |
9 |
X |
O |
RCPB |
Receive clock line B |
10 |
|
I |
Reserved |
|
11 |
W |
I |
ETCB |
Exterior clock line B |
12 |
AA |
O |
TCPB |
Transmit clock line B |
13 |
|
|
NC |
|
14 |
S |
I |
TDB |
Transmit data line B |
15 |
Y |
O |
TCPA |
Transmit clock line A |
16 |
T |
O |
RDB |
Transmit data line B |
17 |
V |
O |
RCPA |
Receive clock line A |
18 |
|
|
NC |
|
19 |
|
|
NC |
|
20 |
H |
I |
DTR |
Data transport ready |
21 |
|
|
NC |
|
22 |
|
|
NC |
|
23 |
|
I |
Reserved |
|
24 |
U |
I |
ETCA |
Exterior clock line A |
25 |
|
|
NC |
|
Definition of V.35 Port (DTE mode):
Ping |
F/34 |
I/O |
Definition |
Functions |
---|---|---|---|---|
1 |
A |
|
GND |
Signal grand |
2 |
R |
I |
RDA |
Receive data line A |
3 |
P |
O |
TDA |
Transmit data line A |
4 |
D |
I |
CTS |
Transmit permission |
5 |
C |
O |
RTS |
Transmimission Request |
6 |
H |
O |
DTR |
Data transport ready |
7 |
B |
|
GND |
Protection GND |
8 |
|
O |
Reserved |
|
9 |
W |
O |
ETCB |
Exterior clock line B |
10 |
AA |
I |
TCPB |
Transmit clock line B |
11 |
X |
I |
RCPB |
Receive clock line B |
12 |
|
O |
Reserved |
|
13 |
|
|
NC |
|
14 |
T |
I |
RDB |
Receive data line B |
15 |
|
O |
Reserved |
|
16 |
S |
O |
TDB |
Transmit data line B |
17 |
U |
O |
ETCA |
|
18 |
|
|
NC |
|
19 |
|
|
NC |
|
20 |
E |
I |
DSR |
|
21 |
|
|
NC |
|
22 |
|
|
NC |
|
23 |
Y |
I |
TCPA |
Transmit clock line A |
24 |
V |
I |
RCPA |
Receive clock line A |
25 |
|
|
NC |
|
· DC voltage: -48VDC: -36V~-72V
· Power supply ripple: ≤240mVp-p
· AC voltage: 220VAC±15% 50Hz
· Power consumption: ≤10W
· Environment Temperature:0℃~45℃;
· Relative Moisture:≤90%(35℃);
· Atmospheric Pressure:86~106Kpa.
483×175×45 mm
1. The Way of Making Joining Line for Management Port
Management port take combination of between RS232 interface and PC series port, only connecting RXD, TXD, GND of three lines, etc.. Specification figure is as follow:
2. Making Joining Line for EI Port of PDH120+100M
E1 interface impedance of PDH120+100M series optical modem with series of PDH120 support 75Ω/120Ω (user optional). When users choose 75Ω, plug is BNC (Q9) coaxial. So interface joining line conforming to the request of Q9 coaxial cable of coaxial connector. The figure is as follow.
Attached figure 2: The way of Making Joining Line for E1 interface of MST155series optical modem |
Above all kinds of joining line request for using special tools before making, doing regular test for quality and extension after making.