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High-performance DFB lasers from renowned international brands with narrow spectral lines, good linearity, and high output power.
Advanced multi-frequency RF predistortion technology for automatic optimization of C/CTB, C/CSO, and C/N specifications.
32-bit ARM processor for efficient coordination and precise monitoring and control of operating parameters.
Laser temperature stabilization circuit (ATC) and optical power output stabilization circuit (APC) for optimal laser performance.
Operating bandwidth of 47-862MHz (1000MHz customizable).
Dual-module structure for increased functionality, including light emitting, EDFA, light collection, RF switch, and more.
Modular design for easy expansion and maintenance.
Standard network management interface compliant with SNMP protocol.
Dual power hot backup capability and snap-type fixed power supply for easy operation and secure installation. Optional voltage options of 220V, 110V, and 48V.
The ZY-1550-DM is a 1550nm Direct-modulated Optical Transmitter ,it follows the CATV standard and converts CATV RF amplitude signal into 1310nm/1550nm optical signal. This signal is then sent through single-mode optical fiber to the optical node in the HFC network. It is primarily used for transmitting TV signals in medium-sized networks and has multiple applications. High-power optical amplifiers are used for laying fiber-to-the-home (FTTH) networks. The 1550nm Direct-modulated Optical Transmitter includes a reliable and stable optical output power circuit and a temperature control circuit for the pump laser thermoelectric cooler. This ensures optimal performance of the equipment. It has a professional cooling structure design, intelligent temperature control fan, and low power consumption. It is an excellent choice for establishing secondary network signal transmission in CATV systems.
High-performance DFB lasers from renowned international brands with narrow spectral lines, good linearity, and high output power.
Advanced multi-frequency RF predistortion technology for automatic optimization of C/CTB, C/CSO, and C/N specifications.
32-bit ARM processor for efficient coordination and precise monitoring and control of operating parameters.
Laser temperature stabilization circuit (ATC) and optical power output stabilization circuit (APC) for optimal laser performance.
Operating bandwidth of 47-862MHz (1000MHz customizable).
Dual-module structure for increased functionality, including light emitting, EDFA, light collection, RF switch, and more.
Modular design for easy expansion and maintenance.
Standard network management interface compliant with SNMP protocol.
Dual power hot backup capability and snap-type fixed power supply for easy operation and secure installation. Optional voltage options of 220V, 110V, and 48V.
The ZY-1550-DM is a 1550nm Direct-modulated Optical Transmitter ,it follows the CATV standard and converts CATV RF amplitude signal into 1310nm/1550nm optical signal. This signal is then sent through single-mode optical fiber to the optical node in the HFC network. It is primarily used for transmitting TV signals in medium-sized networks and has multiple applications. High-power optical amplifiers are used for laying fiber-to-the-home (FTTH) networks. The 1550nm Direct-modulated Optical Transmitter includes a reliable and stable optical output power circuit and a temperature control circuit for the pump laser thermoelectric cooler. This ensures optimal performance of the equipment. It has a professional cooling structure design, intelligent temperature control fan, and low power consumption. It is an excellent choice for establishing secondary network signal transmission in CATV systems.
Fiber-to-the-Home (FTTH) networks: These transmitters are used to transmit optical signals over long distances in FTTH networks, providing high-speed internet, IPTV, and VoIP services to residential users.
Cable television (CATV) networks: 1310nm/1550nm optical transmitters are employed in CATV networks to transmit video, audio, and data signals over fiber optic cables, ensuring high-quality and reliable transmission to subscribers.
Telecommunication networks: These transmitters are utilized in telecommunication networks to transmit voice, data, and video signals over long distances, enabling efficient communication between different locations.
Video surveillance systems: 1310nm/1550nm optical transmitters are used in video surveillance applications to transmit high-definition video signals from cameras to monitoring centers, ensuring real-time monitoring and recording.
Data centers: These transmitters are deployed in data centers to support high-capacity and low-latency connections, facilitating the storage, processing, and transmission of large volumes of data.
Fiber-to-the-Home (FTTH) networks: These transmitters are used to transmit optical signals over long distances in FTTH networks, providing high-speed internet, IPTV, and VoIP services to residential users.
Cable television (CATV) networks: 1310nm/1550nm optical transmitters are employed in CATV networks to transmit video, audio, and data signals over fiber optic cables, ensuring high-quality and reliable transmission to subscribers.
Telecommunication networks: These transmitters are utilized in telecommunication networks to transmit voice, data, and video signals over long distances, enabling efficient communication between different locations.
Video surveillance systems: 1310nm/1550nm optical transmitters are used in video surveillance applications to transmit high-definition video signals from cameras to monitoring centers, ensuring real-time monitoring and recording.
Data centers: These transmitters are deployed in data centers to support high-capacity and low-latency connections, facilitating the storage, processing, and transmission of large volumes of data.
Technical Parameters | ZY-1300-DM | ZY-1550-DM |
Output optical power | 2~30mW | 3~10dBm |
Wavelength | 1310nm±20 | 1550nm±15 |
Laser type | DFB laser | |
Optical modulation | Direct light intensity modulation | |
Optical connector form | FC/APC&SC/APC(customize) | |
Frequency Range | 47~862MHz(customize 1000MHz) | |
RF input level | 75~90dBuV(Recommended best value 80dBuV) | |
In-band flatness | ±1dB | |
AGC accuracy | 0.5dB | |
MGC adjustment range | 0~15dB | |
RF input impedance | 75Ω | |
Input reflection loss | ≥16(40-550);≥14(550-860) | |
C/CTB | ≥51 | ≥51 |
C/CSO | ≥65 | ≥70 |
Carrier to noise ratio (C/N) | ≥60 | ≥70 |
Supply voltage | AC110/220(90~265v)or DC48v(38~58v) | |
Total power consumption | <12W | |
Operating temperature | -5℃~+45℃ | |
Relative humidity | 95% max, no condensation | |
Storage temperature | -30℃~+70℃ | |
Product net size | 482(W)*356(D)*44(H) | |
Single product packaging size | 590(W)*505(D)*115(H) |
Technical Parameters | ZY-1300-DM | ZY-1550-DM |
Output optical power | 2~30mW | 3~10dBm |
Wavelength | 1310nm±20 | 1550nm±15 |
Laser type | DFB laser | |
Optical modulation | Direct light intensity modulation | |
Optical connector form | FC/APC&SC/APC(customize) | |
Frequency Range | 47~862MHz(customize 1000MHz) | |
RF input level | 75~90dBuV(Recommended best value 80dBuV) | |
In-band flatness | ±1dB | |
AGC accuracy | 0.5dB | |
MGC adjustment range | 0~15dB | |
RF input impedance | 75Ω | |
Input reflection loss | ≥16(40-550);≥14(550-860) | |
C/CTB | ≥51 | ≥51 |
C/CSO | ≥65 | ≥70 |
Carrier to noise ratio (C/N) | ≥60 | ≥70 |
Supply voltage | AC110/220(90~265v)or DC48v(38~58v) | |
Total power consumption | <12W | |
Operating temperature | -5℃~+45℃ | |
Relative humidity | 95% max, no condensation | |
Storage temperature | -30℃~+70℃ | |
Product net size | 482(W)*356(D)*44(H) | |
Single product packaging size | 590(W)*505(D)*115(H) |
ZY-1550-wavelength+ Transmission kilometer + output port number*Output power per.
por-Output connector+Main power+Secondary power+RF type.
ZY-1550-wavelength+ Transmission kilometer + output port number*Output power per.
por-Output connector+Main power+Secondary power+RF type.
1. What is the delivery time of 1550nm Direct-modulated Optical Transmitter ?
The delivery time may vary depending on factors such as order volume and customization requirements. However, it typically ranges from 1 to 2 weeks.
2. What kind of after-sales services?
We provide comprehensive after-sales services for it. This includes technical online support, troubleshooting assistance, and software updates. Our dedicated support team is available to address any queries or issues that may arise.
3. How to Choose the 1550nm Optical Transmitter Based on Transmission Distance?
How does the transmission distance affect the selection of an optical transmitter?
The transmission distance is a crucial factor in determining the appropriate optical transmitter. Different transmitters have different power output capabilities, and the transmission distance should be within the specified range of the transmitter to ensure reliable signal transmission.
How can I determine the transmission distance for my optical transmitter?
The transmission distance depends on factors such as the fiber type, attenuation, and signal quality requirements. It is recommended to consult with a professional or refer to industry guidelines to determine the maximum transmission distance supported by the optical transmitter.
What are the key specifications to consider for long-distance transmission?
For long-distance transmission, it is important to consider the output power, receiver sensitivity, and dispersion compensation capabilities of the optical transmitter. These specifications ensure that the signal can reach the desired distance without significant degradation.
Can the optical transmitter be adjusted to support different transmission distances?
Some optical transmitters offer adjustable power output or have different models available for different transmission distances. It is advisable to check the specifications and capabilities of the optical transmitter to ensure it can meet the required transmission distance.
Are there any additional considerations for multi-span or amplified transmission?
In multi-span or amplified transmission scenarios, it is essential to consider the cumulative loss and dispersion compensation requirements. Optical transmitters with higher power output and dispersion compensation capabilities may be needed to maintain signal integrity over multiple spans or through amplification stages.
Please note that the answers provided here are general guidelines. It is recommended to consult with a professional or the manufacturer for specific recommendations based on your transmission distance requirements and network configuration.
1. What is the delivery time of 1550nm Direct-modulated Optical Transmitter ?
The delivery time may vary depending on factors such as order volume and customization requirements. However, it typically ranges from 1 to 2 weeks.
2. What kind of after-sales services?
We provide comprehensive after-sales services for it. This includes technical online support, troubleshooting assistance, and software updates. Our dedicated support team is available to address any queries or issues that may arise.
3. How to Choose the 1550nm Optical Transmitter Based on Transmission Distance?
How does the transmission distance affect the selection of an optical transmitter?
The transmission distance is a crucial factor in determining the appropriate optical transmitter. Different transmitters have different power output capabilities, and the transmission distance should be within the specified range of the transmitter to ensure reliable signal transmission.
How can I determine the transmission distance for my optical transmitter?
The transmission distance depends on factors such as the fiber type, attenuation, and signal quality requirements. It is recommended to consult with a professional or refer to industry guidelines to determine the maximum transmission distance supported by the optical transmitter.
What are the key specifications to consider for long-distance transmission?
For long-distance transmission, it is important to consider the output power, receiver sensitivity, and dispersion compensation capabilities of the optical transmitter. These specifications ensure that the signal can reach the desired distance without significant degradation.
Can the optical transmitter be adjusted to support different transmission distances?
Some optical transmitters offer adjustable power output or have different models available for different transmission distances. It is advisable to check the specifications and capabilities of the optical transmitter to ensure it can meet the required transmission distance.
Are there any additional considerations for multi-span or amplified transmission?
In multi-span or amplified transmission scenarios, it is essential to consider the cumulative loss and dispersion compensation requirements. Optical transmitters with higher power output and dispersion compensation capabilities may be needed to maintain signal integrity over multiple spans or through amplification stages.
Please note that the answers provided here are general guidelines. It is recommended to consult with a professional or the manufacturer for specific recommendations based on your transmission distance requirements and network configuration.