MOTOROLA FLN3524/FCN6650 adapter power supply

MOTOROLA FLN3524/FCN6650 adapter power supply

FLN3524 adapter power specifications

Input voltage range: The FLN3524 adapter power supply supports a wide input voltage range, typically 100-240VAC, 50/60Hz. This feature enables the adapter to adapt to the power standards of different regions around the world, whether it is in North America with a power supply voltage of 110V or in most parts of Europe and Asia with a power supply voltage of 220V, it can work stably, greatly enhancing the versatility and applicability of the equipment.

Output voltage and current: Its output voltage is precisely set to 24VDC to meet the power supply requirements of the FLN3524 processor module. In terms of output current, according to different application scenarios and configurations, it is sufficient to support the power demand of FLN3524 under full load working conditions such as processing complex data tasks and multi device communication connections, ensuring stable module operation and avoiding performance degradation or failure due to insufficient power supply.

Conversion efficiency: This adapter power supply has a high conversion efficiency. Efficient conversion means that in the process of converting AC power to DC power, energy loss is low, which not only reduces energy waste and saves operating costs, but also reduces the heat generated by energy loss, helping to improve the stability and service life of the power supply itself and the FLN3524 module.

FCN6650 adapter power specifications

Input characteristics: The FCN6650 adapter power supply also has a wide input voltage characteristic, with an input voltage range of 90-264VAC and a frequency range of 47-63Hz. This wider input range allows it to work normally in areas with large voltage fluctuations or unstable power environments, providing reliable power input for the FCN6650 processor module.

Output specification: The output voltage is set to a stable adjustable range of 12-48VDC to meet the working requirements of FCN6650. Users can accurately adjust the output voltage according to the configuration and power consumption requirements of the FCN6650 module in actual application scenarios. The output current capability is powerful to meet the power requirements of FCN6650 during high load operations such as high-speed communication tasks and multitasking parallel processing, ensuring that the module is always in optimal working condition.

Efficiency and Power Factor: The FCN6650 adapter power supply exhibits excellent conversion efficiency, effectively reducing energy consumption. At the same time, its power factor correction (PFC) function can increase the power factor to above 0.95, reduce harmonic pollution to the power grid, improve power utilization efficiency, and comply with modern green and environmentally friendly electricity standards.

Key characteristics and advantages of adapter power supply

Stability: Both FLN3524 and FCN6650 adapter power supplies use advanced voltage regulation technology and high-quality filtering capacitors. This ensures the stability of the output voltage, with extremely low voltage ripple coefficient, providing pure and stable DC power for the processor module, avoiding damage to the precision electronic components inside the module due to voltage fluctuations, and ensuring the performance stability and data processing accuracy of the module during long-term operation.

Reliability: In the design and manufacturing process, the adapter power supply uses industrial grade high-quality electronic components, which have undergone strict quality testing and aging testing. Equipped with comprehensive overvoltage, overcurrent, and overheating protection functions, when abnormal situations occur, such as high output voltage, excessive current, or internal temperature exceeding the safety threshold, the adapter power supply can quickly activate the protection mechanism, automatically cut off the output, prevent equipment damage, greatly improve the reliability and safety of the entire system, and reduce equipment downtime and maintenance costs caused by power failures.

Compatibility: These two adapter power supplies are designed specifically for FLN3524 and FCN6650 processor modules, achieving a perfect match with the corresponding modules in terms of electrical performance, interface specifications, and other aspects. Not only can it ensure stable power supply, but it can also work together with modules in communication protocols, signal interaction, and other aspects, avoiding communication abnormalities, equipment crashes, and other problems caused by incompatible power supplies and modules, providing users with a one-stop reliable power solution.

Precautions for use and maintenance

Installation connection: When connecting the adapter power supply to the processor module, make sure to disconnect the power supply first. Carefully check the type and pin definitions of the power interface, connect it in the correct way, and avoid reverse insertion or poor contact. After the connection is completed, confirm again that the connection is secure to prevent the interface from loosening due to vibration or other reasons during device operation, which may affect power supply stability.

Working environment: The adapter power supply should be installed in a well ventilated, dry, and non strong electromagnetic interference environment. Avoid using in high temperature and humid places, as high temperature environments can affect the heat dissipation effect of the power supply and shorten the lifespan of internal components; A humid environment may cause faults such as short circuits. The working temperature range is generally 0 ℃ -40 ℃, and the storage temperature range is -20 ℃ -60 ℃. It should be used and stored within the specified temperature range as much as possible.

Regular maintenance: Regularly inspect the appearance of the adapter power supply to see if there are any damages to the casing or aging cables. Use professional power detection equipment to regularly check whether the output voltage and current are within the normal range. If any abnormalities are found, the use should be stopped in a timely manner and professional maintenance personnel should be contacted for inspection. At the same time, regularly clean the dust on the surface of the power supply to prevent dust accumulation from affecting the heat dissipation effect.

Installation precautions

（1） Environmental selection

Be sure to install the adapter power supply in a well ventilated environment, avoiding installation in confined spaces or locations where ventilation openings are blocked. Good ventilation helps to dissipate heat from the power supply and prevent internal components from overheating and damage due to heat accumulation. For example, the power supply cannot be installed inside a completely enclosed metal cabinet without heat dissipation holes.

Choose a dry installation environment to prevent humid air from entering the interior of the power supply. A humid environment may cause problems such as circuit short circuits and component corrosion. If it is not possible to avoid use in environments with high humidity, additional moisture-proof measures should be provided for the power supply, such as using a moisture-proof box.

Stay away from strong electromagnetic interference sources such as large motors, transformers, frequency converters, and other equipment. Strong electromagnetic interference may affect the normal operation of the power supply, leading to unstable output voltage, abnormal noise, and other situations. The distance between the installation location and the interference source should be kept at least 1 meter.

（2） Connection operation

Before connecting the power supply, it is necessary to ensure that all relevant equipment has been powered off. It is strictly prohibited to perform wiring operations while the power is on to prevent electric shock accidents and equipment damage.

Carefully check the identification of the power input and output interfaces to ensure proper connection. When connecting the input interface to the mains power, use a power cord that meets the specifications and confirm that the power plug is in good contact with the socket. When connecting the output interface to the FLN3524 or FCN6650 processor module, insert it accurately according to the interface shape and pin definition to avoid faults caused by reverse insertion or poor contact.

For power sources that require grounding, it is essential to connect the grounding wire correctly. Good grounding can effectively prevent safety hazards caused by power leakage and enhance the anti-interference ability of the power supply. The grounding wire should use a suitable specification of wire, and the grounding resistance should comply with relevant standards.

Precautions for use

（1） Load management

Strictly follow the rated output power and current of the adapter power supply, and prohibit overload operation. Overloading may cause severe heating of the power supply, shorten its lifespan, and even lead to safety accidents such as fires. When connecting FLN3524 or FCN6650 processor modules and other peripheral devices, it is necessary to calculate the total load power to ensure that it does not exceed the power supply rating.

Avoid frequent power on and off. Frequent power on/off operations may generate surge currents, which can impact internal components of the power supply and affect its performance and lifespan. If you need to temporarily stop the device from running, you can keep the power supply in standby mode instead of completely shutting it down.

（2） Voltage adaptation

Confirm that the input voltage matches the local mains voltage before use. If the input voltage is too high or too low, it may damage the power supply or cause it to malfunction. For power supplies that support wide voltage input, it is recommended to use a voltage regulator in areas with large voltage fluctuations to ensure that the input voltage remains stable within the normal range.

For the FCN6650 series adapter power supply with adjustable output voltage, when adjusting the output voltage, it is necessary to follow the operating steps in the user manual and gradually adjust it to the desired voltage value to avoid excessive adjustment amplitude at once, which may cause damage to the connected processor module.

Maintenance precautions

（1） Daily inspection

Regularly check the working status indicator light of the power supply. Under normal circumstances, the indicator light should light up or flash according to established rules. If there is abnormal flashing, extinguishing, or abnormal color on, the power supply working status should be checked immediately to determine if there is a fault.

Use professional instruments to detect the output voltage and current of the power supply every month, ensuring that they fluctuate within the rated range. If there is a significant deviation in output voltage or current, it is necessary to calibrate or repair it in a timely manner.

（2） Cleaning and maintenance

Regularly clean the dust on the surface of the power supply, at least once every quarter. Use a dry, soft brush or vacuum cleaner to remove dust from the power supply casing, avoid wiping with a damp cloth, and prevent moisture from entering the interior of the power supply.

For long-term use of power supplies, it is necessary to open the casing every year (under the condition of power outage and ensuring safety), clean the internal dust, and check whether the internal components are loose, deformed, burnt, and other phenomena. If any abnormalities are found, promptly contact professional maintenance personnel for handling.