MAX712电池充电器,max712 battery charger
MAX712电池充电器,max712 battery charger
关键字:MAX712电池充电器
本文源自下面的连接:http://www.rason.org/Projects/gelcell/gelcell.htm
12 VOLT GEL CELL CHARGER
BY N1HFX
Recently, a fellow amateur was looking for a gel cell charger which would first charge at a fixed rate and then later switch to a trickle charge when the cell was fully charged. After reviewing several catalogs and web sites, the MAX712 IC was discovered. This IC meets all the requirements for almost any type of battery charging system. The circuit in Figure 1 was designed specifically for 12 volt gel cells.
When a discharged gel cell is connected, the charger goes into a fast charge mode at a fixed rate of 400 ma. After the chip detects the voltage leveling off or when 4 1/2 hours has elapsed. (which ever happens first.) the fast charge will stop. After the fast charge has ended, the IC goes into a trickle charge rate of about 50 ma. This trickle charge continues until 13.8 volts is reached which will stop all charging current since the cell is now fully charged. If the cell voltage should drop for any reason, either a fast charge or trickle charge (IC will detect what is needed) will start again.
When constructing this circuit, be sure to attach a small heat sink to Q1. Apply a DC (partially filtered) voltage of at least 15.3 volts. The voltage must never go below this level even under load conditions. Many of the DC wall transformers available will work just fine as long as they meet the minimum voltage requirement. The input voltage can be as high as 24 volts. If the input voltage must be in the 30 volt range, increase R1 to about 820 ohms.
The output voltage must be aligned prior to use. Disconnect the battery from the circuit and apply power. Connect a digital volt meter or other accurate volt meter to pin 2 (positive lead) and to pin 12 (negative lead). Adjust R7 until exactly 13.8 volts is read.
Because this circuit will not overcharge a gel cell, the battery can be connected indefinitely. This circuit is designed primarily as a 12 backup system and can be connected to the load provided the device to be powered only draws current during power line interruptions. Use a diode from the battery to load if needed. This circuit makes an excellent battery backup to an amateur transceiver.
The MAX712 IC and the .62 ohm resistor are available from Digi-Key, 701 Brooks Ave, Thief River Falls, MN 56701 (1-800-344-4539). Order part numbers MAX712CPE-ND and 0.62W-1-ND respectively. All other parts are available at Radio Shack.
DE N1HFX
元件清单 PARTS LIST
| C1
声明:本文内容及配图由入驻作者撰写或者入驻合作网站授权转载。文章观点仅代表作者本人,不代表电子发烧友网立场。文章及其配图仅供工程师学习之用,如有内容侵权或者其他违规问题,请联系本站处理。
举报投诉
发布评论请先 登录 相关推荐
热点推荐
MAX1772:低成本多化学电池充电器的理想之选MAX1772:低成本多化学电池充电器的理想之选 在电子设备的电池充电领域,一款高效、多功能且低成本的充
探索MAX1811:USB供电的单节锂离子电池充电器探索MAX1811:USB供电的单节锂离子电池充电器 在电子设备的设计中,电池充电器的性能直接影响设备的使用体验和
MAX1647/MAX1648:跨化学体系电池充电器的卓越之选MAX1647/MAX1648:跨化学体系电池充电器的卓越之选 各位电子工程师们,今天为大家详细介绍两款具有出色性能的跨化学体系电池
MAX712/MAX713:NiCd/NiMH电池快充控制器全方位解读MAX712/MAX713:NiCd/NiMH电池快充控制器全方位解读 作为电子工程师,在电池充电设计领域,找到一款合适的
MAX8808X/MAX8808Y/MAX8808Z:小巧高效的单节锂电池充电器MAX8808X/MAX8808Y/MAX8808Z:小巧高效的单节锂电池充电器 在电子设备飞速发展的今天,锂
MAX8713:简化多化学体系SMBus电池充电器的卓越之选MAX8713:简化多化学体系SMBus电池充电器的卓越之选 各位电子工程师们,今天要和大家深入探讨一款功能强大的电池充电器——
探索MAX1908/MAX8724/MAX8765/MAX8765A:低成本多化学电池充电器的奥秘探索MAX1908/MAX8724/MAX8765/MAX8765A:低成本多化学电池充电器的奥
深入解析MAX1909/MAX8725:多化学电池充电器的卓越之选深入解析MAX1909/MAX8725:多化学电池充电器的卓越之选 在电子设备日新月异的今天,电池充电器
深入剖析MAX1551/MAX1555:单节锂电池充电器的卓越之选深入剖析MAX1551/MAX1555:单节锂电池充电器的卓越之选 在如今的电子设备中,单节锂电池的应用极为广泛,而高效、可靠的
MAX1507:小封装大容量的单节锂电池充电器MAX1507:小封装大容量的单节锂电池充电器 在电子设备的设计中,电池充电器的性能和尺寸往往是工程师关注的重点。Maxim 公司的
MAX8934A - MAX8934E:双输入线性充电器的技术剖析8934A - MAX8934E系列是具备智能电源选择器的双输入Li+/Li - Poly线性电池充电器,能依据JEITA建议安全地为单节Li+/Li - Poly电池
MAX77975/MAX77976:高性能单节锂电池充电器的卓越之选MAX77975/MAX77976:高性能单节锂电池充电器的卓越之选 在电子设备日新月异的今天,电池充电
MAX77884/MAX77885:高性能单节锂电池充电器的卓越之选MAX77884/MAX77885:高性能单节锂电池充电器的卓越之选 在电子设备的设计中,电池充电器
MAX77757:高效USB Type - C自主充电器,助力电池充电设计MAX77757:高效USB Type - C自主充电器,助力电池充电设计 在电子设备的设计中,电池充电
|
评论