Delta Electronics LCP-155 CWDM manual State/ Control Bits, Optional Set of Alarm and Warning

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PS: Sensitivity optical power of receiver.

5)Byte 95 contains the low order 8bits of sum of bytes 0-94.

State/ Control Bits

Byte

 

Bit

Name

Description

110

7

Tx Disable State

Digital state of the Tx disable input pin

110

 

6

Soft Tx Disable

Read/ Write bit that allow software disable of laser

110

5

Reserved

 

110

 

4

Rate Select tate

NA

110

3

Soft Rate Select

NA

110

 

2

Tx Fault

Digital state of the Tx fault output pin

110

1

LOS

Digital state of the LOS output pin.

110

 

0

Data_Ready_Bar

NA

7)

Optional Set of Alarm and Warning

Byte

 

Bit

Name

Description

112

7

Temp High Alarm

Set when internal temperature exceeds high alarm level

112

6

Temp Low Alarm

Set when internal temperature is below low alarm level

112

 

5

Vcc High Alarm

Set when internal supply voltage exceeds high alarm level

112

 

4

Vcc Low Alarm

Set when internal supply voltage is below low alarm level

112

3

Tx Bias High Alarm

Set when Tx Bias current exceeds high alarm level

112

2

Tx Bias Low Alarm

Set when Tx Bias current is below low alarm level

112

 

1

Tx Power High Alarm

Set when Tx output power exceeds high alarm level

112

 

0

Tx Power Low Alarm

Set when Tx output power is below low alarm level

113

7

Rx Power High Alarm

Set when received power exceeds high alarm level

113

6

Rx Power Low Alarm

Set when received power is below low alarm level

113

 

5-0

Reserved

 

116

7

Temp High Warning

Set when internal temperature exceeds high warning level

116

6

Temp Low Warning

Set when internal temperature is below low warning level

116

 

5

Vcc High Warning

Set when internal supply voltage exceeds high warning level

116

 

4

Vcc Low Warning

Set when internal supply voltage is below low warning level

116

3

Tx Bias High Warning

Set when Tx Bias current exceeds high warning level

116

2

Tx Bias Low Warning

Set when Tx Bias current is below low warning level

116

 

1

Tx Power High Warning

Set when Tx output power exceeds high warning level

116

 

0

Tx Power Low Warning

Set when Tx output power is below low warning level

117

7

Rx Power High Warning

Set when received power exceeds high warning level

117

6

Rx Power Low Warning

Set when received power is below low warning level

117

 

5-0

Reserved

 

Digital Diagnostic Monitor Accuracy

 

Parameter

Typical Value

 

Note

 

 

 

 

 

 

 

 

Transceiver Temperature

± 3

1

 

 

Power Supply Voltage

± 3%

 

2

 

 

TX Bias Current

± 10%

 

 

 

 

TX Optical Power

± 1.5dB

 

 

 

 

RX Optical Power

± 3dB

3

 

Notes:

 

 

 

 

 

 

12

 

Jun., 2007

 

 

 

 

Rev. 0F

DELTA ELECTRONICS, INC.

 

 

www.deltaww.com

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Contents Description ApplicationsPerformance OC-3/SDH STM-1Electrical Characteristics Absolute Maximum RatingsRecommended Operating Conditions Optical Characteristics SmsrRIN PA-PDPLD / PAL Pin Name Function Plug Num Seq Delta ELECTRONICS, INC Parameter Symbol Min Max Unit SFP timing parameters for SFP managementPackage Outline Drawing Enhanced Digital Diagnostic Interface Eeprom Serial ID Memory Contents 2-Wire Address A0h Digital Diagnostic Monitoring Interface Address Name Value Dec Unit BytesOptional Set of Alarm and Warning State/ Control BitsRegulatory Compliance Test Item Reference Qty’ EvaluationEMC Cispr MIL-STD-883CRoHS Compliance Temperature Ordering information for SFP modulesRevision History LCP-155D4 X1 X2 X3 Link Budget Wavelength

LCP-155 CWDM specifications

Delta Electronics has established itself as a prominent player in the telecommunications field, particularly with its innovative LCP-155 CWDM (Coarse Wavelength Division Multiplexing) solution. This device stands out for its ability to enhance the capacity and efficiency of optical networks, allowing multiple channels to be transmitted over a single optical fiber. The LCP-155 CWDM is an essential piece of equipment for service providers looking to optimize their existing infrastructure.

One of the key features of the LCP-155 CWDM is its scalability. With the ability to support up to 16 wavelengths on a single fiber strand, this solution enables network operators to increase bandwidth without extensive additional investments in physical infrastructure. This scalability is particularly important in scenarios where demand is rapidly growing, allowing operators to effectively accommodate future needs without significant disruptions.

The device employs advanced technologies such as high-performance optical filters and integrated monitoring functions. These features ensure that signal integrity is maintained, even over long distances. The built-in monitoring capabilities provide real-time insights into system performance, allowing operators to proactively manage network health and troubleshoot issues before they escalate.

Another noteworthy characteristic of the LCP-155 CWDM is its compact form factor. The design is optimized for efficient space usage, making it suitable for deployment in various environments, including central offices and remote locations. This compact nature does not compromise performance; the device delivers low insertion loss and high channel isolation, which are critical for maintaining signal quality in densely populated wavelength environments.

Delta Electronics has also prioritized energy efficiency in the LCP-155 CWDM. With the increasing focus on sustainability, this solution is designed to consume less power without sacrificing performance. This efficiency not only reduces operational costs but also aligns with the global movement towards greener technology.

In summary, Delta Electronics LCP-155 CWDM combines scalability, advanced optical technologies, compact design, and energy efficiency to meet the evolving needs of today’s telecommunications landscape. Suitable for fiber-optic network operators aiming to enhance capacity and manage growing data traffic, the LCP-155 CWDM stands out as a versatile and reliable solution. As the demand for high-speed connectivity continues to soar, innovations like the LCP-155 CWDM will play a crucial role in shaping the future of optical networks.