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Huawei Optix OSN1500B
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Huawei Optix OSN1500B
Item# OSN1500B
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STM-16 / STM-4 / STM-1 level Hybrid MSTP Platform

60G TDM / 8G Packet universal switch capacity, with 12 service slots

High Reliability with network level, equipment level and service level protection

TDM and Packet Hybrid transport, dynamic bandwidth sharing

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Product OverviewTechnical SpecsDocuments Delivery & PaymentsWarranty Reviews

General Info

Manufacturer

HUAWEI Technologies Co.Ltd

Product Name

OSN 1500

Large switching capacity

60G high order, 20G low order, 8G packet

High Integration

OSN1500B: Subrack dimensions 221mm (H) x 444mm (W) x 263mm (D), 12 slots for processing boards and 14 slots for interface boards

Flexible networking capacity

Supports Mesh networking with plug-and-play network nodes

Supports dynamic increase of rate and capacity

Supports various networking topologies, including chain, ring, tangent rings, intersecting rings, etc

Supporting maximum 1 STM-16 four-fiber MSP rings, 2 STM-16 two-fiber MSP rings, 4 STM-4 four-fiber MSP rings, 9 STM-4 two-fiber MSP rings

Carrier-class protection

Mesh Protection and restoration(ASON)

Distributed restorable rerouting protection

5-level service dedicated protection scheme based on different SLA: Diamond, Gold, Silver, Copper and Iron services

SDH Network Protection

2/4 fiber MSP Ring; 1+1, 1: n Linear MSP; SNCP/SNCMP/SNCTP; Fiber shared virtual path protection; Fiber shared MSP Ring; DNI (ITU-T G.842)

Service Protection

Ethernet: RPR, RSTP

ATM: VP-RING/VC-RING

Highly reliable design

1+1 hot backup for system control boards, cross-connect and synchronous timing boards

1+1 hot backup for power supply modules

Redundancy protection for fan modules

TPS protection

1:n tributary protection for E1/T1/E3/T3/ E4/STM-1(e)/FE

Enterprise-focused Features

Intelligent ASON based Mesh network can against multi-node failures, improving network reliability by 10 times

Built-in PCM for real All-in-One solution to access low speed services for enterprise customer

Single-span transmission for a distance of 270km without a Raman amplifier, fewer REGs to reduce the network construction cost and facilitate the maintenance

Specified 2M optical interface to support direct connection between MSTP equipment and relay protection device, lower risk and higher reliability

Industry Certification

Pass EN 50121-4 Railway EMC certification.

Slot Allocation

slot layout of an OptiX OSN 1500B subrack (before slot division)

An OptiX OSN 1500B subrack consists of an upper layer and a lower layer. The upper layer provides six slots for interface boards and power interface boards. The lower layer provides 11 slots (available before division of slots) for processing boards and auxiliary boards. After slot division, there are 14 slots. The mappings between the slots for the access boards and the slots for the processing boards and the mappings between paired slots are specified.

Figure below shows the slot layout of an OptiX OSN 1500B subrack (before slot division).

Slot layout of an OptiX OSN 1500B subrack (after division of slots)

Slots 11-13 in an OptiX OSN 1500B subrack can be divided. As shown in the below figure, divided slots are in the dashed area. The slots in the left portion of the original slots are slots 1-3, and the slots in the right portion of the original slots are slots 11-13.

Allocation

The slots in an OptiX OSN 1500B subrack are allocated as follows:

Slots for line unit, SCC unit, cross-connect unit, and timing unit integrated boards: slots 4-5

Slots for processing boards before division of slots: slots 6-9 and 11-13

Slots for processing boards after division of slots: slots 1-9 and 11-13

Slots for service interface boards: slots 14-17

Slot for an orderwire board: slot 9 (also for a processing board)

Slot for an auxiliary interface board: slot 10

Slots for power interface boards: slots 18 and 19

Slot for a fan board: slot 20

Mapping Between Slots for Interface Boards and Slots for Processing Boards

Slot for Processing Board

Slot for Interface Board

Slot 2

Slot 14

Slot 7

Slot 15

Slot 12

Slots 14 and 15

Slot 3

Slot 16

Slot 8

Slot 17

Slot 13

Slots 16 and 17

Paired Slots

If overhead bytes pass through the backplane bus between two slots, the two slots are called paired slots. Paired slots achieves automatic transparent transmission of overhead bytes such as K bytes, D bytes, and E1 overhead bytes. This improves multiplex section protection (MSP) switching performance and protects orderwire and DCC communication with other NEs even after the system control board on the local NE cannot be detected.

Slot Division Status

Paired Slot

Before division of slots

(Slot 4, Slot 5)

(Slot 6, Slot 9)

(Slot 7, Slot 8)

(Slot 12, Slot 13)

After division of slots

(Slot 4, Slot 5)

(Slot 6, Slot 9)

(Slot 7, Slot 8)

(Slot 1, Slot 11)

(Slot 2, Slot 12)

(Slot 3, Slot 13)

Boards

Cross-Connect Boards and System Control Boards

Board

Description

Valid Slot

R1PCXL N

SCC unit, cross- connect unit, and optical interface unit integrated board (supporting packet features)

Slots 4 and 5

NOTE

A PCXL board is a cross-connect unit, timing unit, SCC unit, and line unit integrated board used in an OptiX OSN 1500A subrack. It is a physical board and is housed in slots 4-5. On the NMS, the R1PCXLN board is displayed as Q2SLN (in logical slots 4-5), PCXL (in logical slots 80-81), and GSCC (in logical slots 82-83) boards.

Packet Processing Boards

Board

Description

Valid Slot

Q1PEGS2

2xGE processing board

Slots 12 and 13

R1PEGS1

1xGE processing board

Slots 2, 3, 6-9,12, and 13

R1PEFS8

8xFE processing board

Slots 2, 3, 6-9,12, and 13

R1PEF4F

4xFE optical interface board

Slots 6-9, 12, and 13

R1ML1

Multi- protocol

16xE1 electrical processing board

Slots 6-9

SDH Boards

Board

Description

Valid Slot

N1SL16, N2SL16

1xSTM-16 optical interface board

Slots 11-13

N3SL16

1xSTM-16 optical interface board

Slots 11-13

N1SL16A, N2SL16A

1xSTM-16 optical interface board

Slots 11-13

N3SL16A

1xSTM-16 optical interface board

Slots 11-13

N1SF16

1xSTM-16 optical interface board (with outband FEC)

Slots 11-13

N1SF16E

1xSTM-16 optical interface board (with outband EFEC)

Slots 11-13

N1SLQ4, N1SLQ4A, N2SLQ4

4xSTM-4 optical interface board

Slots 11-13

N1SLD4, N1SLD4A, N2SLD4

2xSTM-4 optical interface board

Slots 11-13

R1SLD4

2xSTM-4 optical interface board (divided slot)

Slots 1-3 and

11-13 (two optical

interfaces can be configured), and slots 6-9 (one optical interface can be configured)

N1SL4, N2SL4

1xSTM-4 optical interface board

Slots 11-13

N1SL4A

1xSTM-4 optical interface board

Slots 11-13

N3SLQ41

4xSTM-4/ STM-1 optical interface board

Slots 11-13

R1SL4

1xSTM-4 optical interface board (divided slot)

Slots 1-3, 6-9, and 11-13

N1SLT1

12xSTM-1 optical interface board

Slots 11-13

N2SLO1, N3SLO1

8xSTM-1 optical interface board

Slots 11-13

N1SLQ1, N1SLQ1A, N2SLQ1

4xSTM-1 optical interface board

Slots 11-13

R1SLQ1

4xSTM-1 optical interface board (divided slot)

Slots 1-3, 6-9, and 11-13

N1SL1, N1SL1A, N2SL1

1xSTM-1 optical interface board

Slots 11-13

R1SL1

1xSTM-1 optical interface board (divided slot)

Slots 1-3, 6-9, and 11-13

N1SEP1 (with an interface board)

8xSTM-1 line processing board

Slots 12 and 13

N1SEP1 (without an interface board)

2xSTM-1 line processing board

Slots 11-13

N1EU04

4xSTM-1 electrical interface board

Slots 14 and 16

N1EU08

8xSTM-1 electrical interface board

Slots 14 and 16

N1OU08

8xSTM-1 optical/ electrical interface board

Slots 14 and 16

N2OU08

8xSTM-1 optical interface board

Slots 14 and 16

NOTE

An SEP1 board is displayed as SEP1 or SEP on the NMS, depending on the interfacing mode of the board. When an SEP1 provides interfaces on its front panel, it is displayed as SEP1 on the NMS; when it is used with an interface board, it is displayed as SEP on the NMS.

PDH Boards

Board

Description

Valid Slot

N1SPQ4, N2SPQ4

4xE4/STM-1 electrical processing board

Slots 12 and 13

N2PQ3

12xE3/T3 service processing board

Slots 12 and 13

N1PD3, N2PD3

6xE3/T3 service processing board

Slots 12 and 13

N1PL3, N2PL3

3xE3/T3 service processing board

Slots 12 and 13

N1PL3A, N2PL3A

3xE3/T3 service processing board (Interfaces are available on the front panel.)

Slots 11-13

N1PQ1, N2PQ1, N2PQ1A/B

63xE1 service processing board

Slots 11-13

R1PD1, R2PD1, R2PD1A/B

32xE1 service processing board

Slots 1-3, 6-8, and 11-13

R1PL1, R1PL1A/ B

16xE1 service processing board

Slots 6-9

N1PQM

63xE1/T1 service processing board

Slots 11-13

N1DX1

DDN service accessing and converging board

Slots 11-13

N1DXA

DDN service converging and processing board

Slots 11-13

N1PFL1

8xE1 optical processing board

Slots 11-13

N1DM12

DDN service interface board

Slots 14-17

N1MU04

4xE4/STM-1 electrical interface board

Slots 14 and 16

N1C34S

3xE3/T3 electrical switching interface board

Slots 14 and 16

N1D34S

6xE3/T3 electrical switching interface board

Slots 14-17

N1D75S

32xE1 electrical switching interface board (75 ohms)

Slots 14-17

N1D12S

32xE1/T1 electrical switching interface board (120 ohms)

Slots 14-17

N1D12B

32xE1/T1 electrical switching interface board

Slots 14-17

N1TSB8

8-port electrical switching interface board

Slots 14 and 15

N1TSB4

4-port electrical switching interface board

slot 14

EoS Boards (Ethernet Over SDH)

Board

Description

Valid Slot

N2EGS2

2xGE switching and processing board

Slots 11-13 (2.5 Gbit/s)

N3EGS2

2xGE switching and processing board

Slots 11-13 (2.5 Gbit/s)

N1EFS0

8xFE switching and processing board

Slots 12-13 (622Mbit/s)

N1EFS0A

16xFE switching and processing board

Slots 12-13 (2.5 Gbit/s)

N2EFS0

8xFE switching and processing board

Slots 12-13 (1.25Gbit/s)

N4EFS0

8xFE switching and processing board

Slots 11-13 (1.25Gbit/s)

N5EFS0

8xFE switching and processing board

Slots 11-13 (1.25Gbit/s)

N1EFS4

4xFE switching and processing board

Slots 11-13

N2EFS4

4xFE switching and processing board

Slots 11-13 (1.25Gbit/s)

N3EFS4

4xFE switching and processing board

Slots 11-13 (1.25Gbit/s)

N1EGT2

2xGE transparent transmission board

Slots 11-13 (2.5 Gbit/s)

N2EGT2

2xGE transparent transmission board

Slots 11-13 (2.5 Gbit/s)

N1EFT8, N2EFT8

8xFE/16xFE transparent transmission board

Slots 11-13 (622Mbit/s)

Slots 12-13 (1.25Gbit/s)

N1EFT8A, N2EFT8

8xFE transparent transmission board

Slots 11-13 (622Mbit/s)

N1EM S4 (Interfaces available on an interface board)

4xGE and 16xFE switching and processing board

Slots 12-13 (2.5 Gbit/s)

N1EM S4 (Interfaces available on the front panel)

4xGE switching and processing board

Slots 11-13 (2.5 Gbit/s)

N1EM S2 (Interfaces available on an interface board)

2xGE and 16xFE switching and processing board

Slots 12-13 (2.5 Gbit/s)

N1EM S2 (Interfaces available on the front panel)

2xGE switching and processing board

Slots 11-13 (2.5 Gbit/s)

N3EGS4

4xGE switching and processing board

Slots 11-13 (2.5 Gbit/s)

N1EGS4, N4EGS4

4xGE switching and processing board

Slots 11-13 (2.5 Gbit/s)

R1EFT4, R2EFT4

4xFE transparent transmission board (divided slot)

Slots 1-3, 6-9, 11-13 (622 Mbit/s)

N1ETF8, N1ETF8A

8x100M Ethernet twisted-pair interface board

Slots 14-17

N1EFF8, N1EFF8A

8x100M Ethernet optical interface board

Slots 14-17

N1ETS8

8x10/100M Ethernet twisted pair interface switching board

Slots 14 and 16

NOTE

The N1EFS0A, N1EFS0, N2EFS0, N4EFS0 and N5EFS0 can be used with the N1ETS8 and N1TSB8 to realize the TPS protection.

General Info

Manufacturer

HUAWEI Technologies Co.Ltd

Product Name

OSN 1500B

System Features

Subrack dimensions

221 mm (H) x 444 mm (W) x 263 mm (D)

Switching capacity

Packet: 8 Gbit/s and TDM: 60 Gbit/s (higher order), 20Gbit/s (lower order)

Service slots

12 slots for processing boards and 4 slots for interface boards

Highly reliable design

1+1 hot backup for power supply modules, system control boards, cross-connect and synchronous timing boards
Redundancy protection for fan modules

Supported interfaces

E1, FE/GE

STM-1/4/16, E1/E3/E4/T1/T3, FE/GE, DDN, IMA/ATM, FEC/EFEC interface, E1 optical interface, SAN, Video

FXS/FXO, 2/4 wire/E&M
V.35/X.21/V.11/V.24/V.28, RS232/422

40-channel DWDM interfaces, compliant with ITU-T G.694.1
8-channel CWDM interfaces, compliant with ITU-T G.694.2

Networking Mode

Supporting pure packet,hybrid (packet + SDH) or SDH networking
Supporting WDM networking
Supporting single-fiber bidirectional transmission

Power Supply

-38.4~ -72V DC; 110/220V AC (External module)

Operation Environment

Temperature Relative Humidity
Long term: 0°C ~ 45°C 10% ~ 90%
Short term: -5°C ~ 55°C 5% ~ 95%

Packet Transport Features

Service features

E-Line and E-LAN
QinQ
VPWS and VPLS
Multi-section pseudo-wire (MS-PW)
TDM PWE3: CESoPSN and SAToP, compression of idle timeslots
ETH PWE3
IGMP SNOOPING V2
Blacklist, Broadcast packet suppression
VLAN SWAP

QoS features

Hierarchical QoS scheduling and traffic shaping
DiffServ mode based on traffic classification 
Simple traffic classification, complex traffic classification, per hop behavior (PHB)
Committed access rate (CAR)
PQ scheduling priority, weighted fair queuing (WFQ) and PQ+WFQ queuing
Tail drop and weighted random early detection (WRED)
Eight priority queues
Shaping based on port scheduling priority

Hardware-based OAM

Supports both LSP OAM and PW OAM:
FDI, BDI
CV, FFD, TraceRoute, Ping
CES PW VCCV
LM, DM

ETH-CC(Continuity Check)、ETH-Loopback、ETH-Link Trace
Remote Loopback、Remote Fault Detection

RMON(RFC 2819)

Carrier-class protection

LSP/PW Linear protection
Anti multifailure protection based on MS-PW
Link aggregation group (LAG) protection
LPT

Clock synchronization

Two external clock inputs/outputs (2 MHz or 2 Mbit/s)
Two external time signals(1pps+TOD)
Adaptive clock recovery (ACR)
Synchronous Ethernet
IEEE 1588v2

MSTP Features

Carrier-class protection

Mesh Protection and restoration(ASON)
Distributed restorable rerouting protection
5-level service dedicated protection scheme based on different SLA: Diamond, Gold, Silver, Copper and Iron services
SDH Network Protection
2/4 fiber MS-SP Ring; 1+1, 1:n (n<=14) Linear MSP; SNCP/SNCMP/SNCTP; Fiber shared virtual path protection; Fiber shared MS-SP Ring; DNI (ITU-T G.842)
Service Protection
Ethernet: RPR, RSTP, LAG/DLAG/PPS/BPS
ATM: VP-RING, PPS/BPS
Electrical Interface Protection
1:N tributary protection for E1/T1, E3/T3, E4, STM-1(e) and FE

Multi-service Transport Features

Ethernet Over SDH
GFP/LAPS/VCAT/LCAS
L2 switch, 64 aggregation directions for powerful Ethernet convergence
Mapping granularity, VC-12-nv/VC-3-nv, and VC-4-nv
Point to Point LPT, Point to Multi-point LPT
MPLS and Stackable VLAN for L2 VPN 
4/8-level CoS, CAR based on 64K granularity
IEEE 802.3ah, 802.1ag
RPR
Automatic topology discovery
3-level CoS , A(A0/A1) / B(B-CIR/B-EIR) / C
Steering/Wrapping/Steering + Wrapping protection scheme guarantee 50ms switching
Spatial reuse of bandwidth with fairness algorithm
Integrated MPLS with RPR to provide VLL/VPLS service
ATM
Support 2M, 34M, 155M, 622M ATM and IMA E1
support up to 93 IMA group & 189 E1s
Others
Support FC/ESCON/DVB-AS/ HD-SDI/SD-SDI
Support DDN(Nx64K) and Framed E1

Clock synchronization

Two external clock inputs/outputs (2 MHz or 2 Mbit/s)
Line clock source
Tributary clock source

Slot Access Capacity in TDM Mode

When different cross-connect boards are used, the access capacity of each slot on the equipment varies.

Figure below shows the slot access capacity (before slot division) of the OptiX OSN 1500B when the R1PCXLN board is used.

In the OptiX OSN 1500B subrack, slots 11-13 can be divided into half-width slots. Slot 11 can be divided into two half-width slots numbered slot 1 and slot 11, slot 12 can be divided into two half-width slots numbered slot 2 and slot 12, and slot 13 can be divided into two half-width slots numbered slot 3 and slot 13.

Figure below shows the slot access capacity (after slot division) of the OptiX OSN 1500B when the R1PCXLN board is used.

OSN 1500 Notes

Thunder Link International has been dedicated to supplying Huawei Transmission products to global customers more than three years, buying OSN1500 at Thunder-Link.com, to promptly migration & expansion your Huawei OSN Series and Metro Series equipment.

Not only been a leading Huawei Transmission products supplier, but also a solution provider, our version is to build as a Huawei Transmission specialist. Thunder Link International has strong resource integration capability, with large stock and offering our customer always competitive price on Huawei Transmission products. Most of our staff are Huawei ex-employee, from pre-sale and after-sale department, we believe that we can provide you precisely quotation and professional services.

Get a quotation or buy Huawei OSN1500, getting Huawei OSN1500 price, OSN 1500 configuration by email us, sales@thunder-link.com, enjoy our professional sales service.

 

OSN1500 Related Document

OptiX OSN 1500 Alarms and Performance Events Reference(V100R008)

OptiX OSN 1500 Alarms and Performance Events Reference(V100R010)

OptiX OSN 1500 Hardware Description( V200R012)

OptiX OSN 1500 Hardware Description(V200R011)

OptiX OSN 1500 Hardware Description(V200R013)

OptiX OSN 1500 Parts Replacement(V100R008)

OptiX OSN 1500 Product Description(V200R013)

OptiX OSN 1500 Smooth Upgrade Guide(V200R013)

OptiX OSN 1500 Supporting Tasks(V100R008)

OptiX OSN 1500 Troubleshooting(V100R008)

 

OSN1500 FAQ

Q:OSN1500 Protection Relationship 

A:E1/T1: A maximum of one group of 1:8 protection. Slot 1 protects Slots 2–5, 13–16.

E3/D3/E4/STM-1e: A maximum of two groups of 1:3 protection. Slot 2 protects Slots 3, 4 and 5. Slot 16 protects Slots 13, 14 and 15. A maximum of two groups of 1:1 protection. Slot 2 protects Slot 3 and Slot 16 protects Slot 15.

 

Q:What's the difference between the 1500B sub-rack and 1500A sub-rack?

A:(1) Outside view: The 1500B sub-rack consists of the upper part and the lower part and looks like a chair. The upper 2U is the leading-out area, and the lower 3U is the service processing area. The outside view of the 1500A is basically the same as that of the 1500B. Compared with the 1500A, the 1500B has no interface area in the 2U area. But the rear leading-out boards, the 1500A can borrow most service boards of the 1500B sub-rack.

(2) LANSWITCH bus: For the 1500A sub-rack, only the boards in Slots 1 and 11 are PIU boards, and require no Lanswitch bus; the Lanswitch bus Nos. of other service boards are consistent with one another. It is helpful to reuse of the software system.

(3) TPS protection

1500B: 

TPS protection for the E1 service:

The large Slot 11 protects Slots 12 and 13.

The small Slot 1 protects Slots 2 and 3. Slot 11 protects Slots 12 and 13. Slot 6 protects Slots 7 and 8. A Slot 11 protection group cannot coexist with a Slot 6 protection group.

TPS protection for the E3 service:

Slot 12 protects Slot 13; leading-out board Slot 16, switching bridging board Slot 14.

The 1500A sub-rack only supports the 1:1 TPS protection for the 2M service, that is, Slot 2 protects the PD1 in Slot 12, and cables are led out in Slots 6 and 7. 

 

Q:For the OptiX OSN 1500 NE, on some occasions, when a board is reset, the COMMUN_FAIL alarm is reported. At the same time or immediately after the preceding board is reset, if multiple boards are reset, the COMMUN_FAIL alarm cannot be reported. Why?

A:For the OptiX OSN 1500, to avoid communication problem of the AUX, if the NE detects the board communication failure, the user should ping "192.168.0.255",14,0 before the seven-second jitter filtering of the COMMUN_FAIL alarm starts. This function is used to ping 14 broadcast packets (one packet every other second) to the 192.168.0.255 network section. If no packet is received within five seconds, the ping operation times out and the user logs out. If the packet is received within five seconds, the counting time restarts and the user logs out after 14 broadcast packets are all received. In addition, according to the printing at the serial port, on the NE the board responding time is 1020 ms. In this way, within [0,14), for the board on the NE, the duration of the function is (number of responding boards + 5) seconds. Within [14,..), the duration of the function is 14s. As a result, the original seven-second filtering may be greatly extended. In addition, the filtering time ascends with the number of boards that reset at the same time or in a short interval. Thus, when the NE detects that the communication of boards recovers, it ends the alarm. However, the filtering does not end, and then the COMMUN_FAIL alarm cannot be reported.

 

Q:Why is the debugging serial port (F_f) on the OSN1500 equipment disabled?

A:On the OSN1500 equipment, the F_f port and the OAM port share the same physical port. If the COA equipment is connected through this physical port and the debugging function is enabled, the data from the COA equipment causes the NE to keep resetting. Therefore, the debugging function of the F_f port on the OSN1500 equipment is shielded and disabled. The debugging function cannot be enabled even by the cfg-set-oamport:F_f,open command. 

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DELIVERY

Shippment will be delivered in 1~2days against payment, except the preorder products. the table below shows standard estimate delivery time by different delivery options. Thunder-Link.com provides delivery options as below:

Delivery Options

Estimated Delivery Time

express

3-5 business days

ups.jpg     express

3-5 business days

express                                            3-5 business days
air cargo                                            3-5 business days
 

Notice:
Above mentioned information are just for your reference only,we will keep you posted for the tracking delivery schedule.

If large quantities need delivery by sea, or other priority shipping way, please contact with us.

 

PAYMENT METHOD

Except Telegraph Transfer(T/T), Thunder Link also provide other payment method below:

T/T

Visa

Paypal

WestUnion

 

WARRANTY

            Quality Assurance:

All Products provide by Thunder Link are ORIGINAL and GENUINE only.
All Products need pass through our Test-Bed before delivery.
Money Back Guarantee:

Payment made by Visa and Paypal, to guarantee your money safety.

WARRANTY

We provide 1 year warranty, any Non-human failed you can return products to us, once we received, will delivery you a replace one in short time.

Return Material Authorization Process

Once your Huawei products failed by non-human reason, you must contact your sales representative to verify product failure. If the problem can’t solve by our technical engineer remotely commissioning, the Return Material Procedure will be started.

RMA Return Shipment :
1 : Returned products have to be packed properly to avoid damage during delivery.
2 : Once shipped, please tell our sales representative tracking No. immediately.

Delivery Charges :
The Customer is responsible for paying shipment charges when returning to us; We will pay for shipment of the replace items back to the customer

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