长城电源Ag++技术介绍(渠道版)

Apexgaming AG-750M电源详细测评！说到Apexgaming这个品牌大家可能会比较陌生，实际上它是美商艾湃与台湾首利实业共同合作的品牌，公司总部位于美国加州，在2017年以Apexgaming名义正式登陆市场，主打的是电竞周边产品。

不过要说到最近Apexgaming最引人注目的事件，那毫无疑问就是其在PC电源领域中投下的一枚重磅炸弹，售价仅为人民币399元、可享受10年质保的80Plus金牌认证电源Apexgaming AG-750M，这款电源在玩家群中引起了广泛的讨论。

Apexgaming AG-750M电源简介Apexgaming AG-750M电源由台湾首利电子进行代工，基于主动式PFC+半桥LLC谐振+同步整流+DC to DC架构打造，采用全模组接口设计，额定功率为750W，通过了80Plus金牌认证。

这个规格在目前的PC电源领域中已经很常见了，但这款电源的市场售价只需要399元，而且还可以享受10年质保服务，这让其一下子成为了玩家群中的焦点。

Apexgaming AG-750M电源Apexgaming AG-750M电源长度为16cm，比起标准14cm长度的ATX电源要略长一点，不过这点长度对于机箱安装兼容性的影响很小，几乎可以忽略不计。

Apexgaming AG-750M电源采用单路+12V输出设计，最高电流为62A，相当于最高744W输出功率;+5V与+3.3V则通过DC to DC电路从+12V转换输出，最高电流均为25A，两路联合输出的额定功率为150W。

电源采用的是14cm直径的7扇叶散热风扇，常规温控方案，没有做低负载低温风扇停转的功能电源交流输出接口配置有独立开关Apexgaming AG-750M电源采用全模组线材设计，其中10pin+14pin的接口为24pin主供电接口模组线，3个8pin对应的是PCI-E显卡供电与CPU供电接口模组线，4个6pin接口则对应SATA供电与D型4pin接口的模组线。

中兴通讯电源产品技术经理培训教材本部事业部电源系统部二00二年四月目录第一章中兴电源产品部简介 (1)一、中兴通讯电源产品部发展概括 (1)二、中兴通信电源产品种类 (2)第二章通信电源基础知识 (6)第一讲通信电源发展概况 (6)一、通信电源的现状和发展趋势 (6)二、通信设备对电源系统的一般要求 (9)第二讲组合通信电源系统结构及功能 (10)第三章中兴通信电源产品特色 (15)第一讲中兴整流器技术 (15)一、工作基本原理 (15)二、中兴整流器技术特点 (16)第二讲中兴组合电源系统特点 (18)可靠的三级防雷网络 (19)自下而上全分布式的三级监控网络 (20)完善的蓄电池管理 (22)灵活多样的组网方式 (22)第三讲组网方式 (23)第四章中兴组合通信电源产品系列介绍 (27)第一讲ZXD5000 100A整流模块及其组成的电源系统 (27)一、ZXD5000 100A整流模块介绍 (27)二、ZXDU3000、ZXDU1500通讯电源系统简介 (29)第二讲ZXD2400 50A整流模块及其组成的电源系统 (32)一、ZXD2400 50A整流模块介绍 (33)二、ZXDU600E、ZXDU400通讯电源系统简介 (34)第三讲ZXD1500 30A整流模块及其组成的电源系统 (37)一、ZXD1500 30A整流模块介绍 (37)二、ZXDU300（2米高机柜）ZXDU300(1.6米高机柜) 通讯电源系统简介 (39)第四讲ZXD800E 15A整流模块及其组成的电源系统 (41)一、ZXD800E 15A整流模块介绍 (41)二、ZXDU150、ZXDU75、ZXDU45通讯电源系统简介 (43)第五讲＋24V组合通信电源系统 (46)第五章中兴UPS产品介绍 (47)ZXUPS S501 (47)ZXUPS S502 (48)ZXUPS S503 (48)ZXUPS S506 (48)ZXUPS S510 (49)ZXUPS M510 (49)ZXUPS M515 (49)ZXUPS M520 (50)ZXUPS M530 (50)ZXUPS L005 (50)ZXUPS L006 (50)第六章通信电源计算配置方法 (52)第七章通信电源市场概述 (55)第一讲国内主要通信电源厂家及其产品特色 (55)一、华为公司 (55)公司背景 (55)产品系列 (56)产品技术特点 (56)我司对策 (57)二、武汉洲际通信电源集团有限公司 (57)公司背景 (57)产品特点 (57)我司对策 (58)三、中达-斯米克电器电子有限公司 (58)公司背景 (58)产品系列 (58)与我司技术优、劣势对比 (59)我司对策 (59)四、珠江电信设备制造有限公司 (59)公司背景 (59)产品系列 (59)产品技术特点 (60)五、新西兰SWITCHTEC公司 (60)公司简介 (60)产品介绍 (60)我司对策 (61)六、亚澳通信电源有限公司 (61)公司概况 (61)产品技术特点简介 (62)我司对策 (62)七、动力源责任有限公司 (63)公司背景 (63)产品介绍 (63)产品优、劣势分析 (64)我司对策 (64)八、通力环电气有限公司 (65)公司背景 (65)产品系列 (65)产品特点 (66)九、意达公司 (67)产品系列 (67)产品技术特点 (68)第二讲我司电源产品市场拓展策略 (68)一、市场分类 (68)二、不同市场拓展策略 (69)三、2002年我司电源产品市场拓展策略 (70)第八章推荐参考书籍清单 (75)第一章中兴电源产品部简介导读：这一章主要介绍了中兴电源产品部的发展概况和现有的产品系列，是本教材的入门篇，各产品系列是本章掌握重点，同时关于产品部的发展、近几年的销售业绩等情况也经常用于客户交流中。

No. CP-SP-1230C光電開關HPX-AG系列使用説明書設定・操作篇常用的設定 P2 型號構成與功能對應表 P4 各部的名稱及作用 P5可設定功能一覧 P6輸出切換 P8傳感器類型 P10調諧 P12功能選擇菜單 P27定時器功能 P28心搏輸出 P29控制輸出鎖定 P30顯示功能 P32特殊功能 P35其他功能 P41與輸入輸出電路的連接 P43設 置 P50外形圖 P52規 格 P54注意事項 P55● 手動調諧可直接變更設定値。

設定値增加。

● 2點調諧①無工件狀態下按［AUTO/OK］按鈕。

②有工件狀態下按［AUTO/OK］按鈕。

③出現下記顯示，表示調諧結束。

※有關其他調諧方法，請參閱P12～26。

2● 入光時ON（LO）與遮光時ON（DO）的切換按住［FUNC/CANCEL］按鈕3s以上。

［＋］按鈕切換成LO、［－］按鈕切換成DO。

● 調諧不順利的場合有工件時與無工件時的最大顯示値（9999或5000等）被顯示的場合 →請在変更傳感器類型的基礎上再次調整。

傳感器類型的変更請參閱P10。

自動調諧後有錯誤顯示的場合→根據P19的錯誤代碼采取相應對策後，再次進行調諧。

常用的設定 3（注）上述表格中“輸出形式及連接形式”和“可選項”有不能組合的情况。

詳細情况請向銷售商或本公司銷售人員咨詢。

4AUTO/OK按鈕顯示器（紅） 顯示現在的受光量。

顯示器（緑） 顯示現在的設定値（閾值）。

輸出顯示燈 輸出ON時燈亮。

輸出允許顯示燈 根據外部同期信號的狀態，控制輸出有效時燈亮。

警報輸出顯示燈警報輸出ON時燈亮。

調諧錯誤輸出顯示燈遠程調諧發生調諧錯誤時燈亮。

[AUTO/OK]按鈕 自動調諧的場合或對各項目的選擇時使用。

[＋]/[－]按鈕直接変更設定値的場合或各選擇項目的移動時使用。

[FUNC/CANCEL]按鈕 向功能選擇菜單切換時或取消操作時使用。

滑動開關通道顯示切換（AG06）及設定値1／設定値2切換（AG07）時使用。

Silvertel1 Table of Contents1Table of Contents 1 2Table of Figures 1 3Kit Contents 2 4Introduction 2 4.1EvalAg5800 (2)5Evaluation Board Description for Ag5800 2 5.1Input (2)5.2Diode Bridge Selection (3)5.3Input Signature and Classification (4)5.3.1Powered from POH PSE 45.3.2Powered from Phihong 12.5K Signature PSE 45.3.3PSE Detect 4 5.4PD Output Selection (4)5.5Output Adjustment (5)5.6Heat Sink (6)5.7Ag5800 Information (6)6Set-up 6 6.1Power Supply Input (6)6.2Data Input (7)6.3Link settings (7)2 Table of FiguresFigure 1: EVALAg5800 Board Layout (3)Figure 2: EVALAg5800 Voltage Configuration- 12V (5)Figure 3: Output Adjustment (6)Figure 4: Basic set-up (7)3 Kit ContentsAg5800 Evaluation BoardAg5800 PD Module4 IntroductionThis manual is intended to be a guide to using the “EVALAg5800 evaluation board” with the following Silver Telecom IEEE802.3bt PD module: -Ag5800The board is designed to handle 10/100/1000/10GBASE-T Ethernet data rates.4.1 EvalAg5800The EVALAG5800 evaluation board is fitted with SilverTel’s Ag5800 IEEE802.3bt PD module and can be used to extract power from an IEEE compliant PSE through its RJ45 connector J101.5 Evaluation Board Description for Ag58005.1 InputThe EVALAG5800 evaluation board can be powered from the EVALAg6800 evaluation board or any IEEE802.3bt PSE. Data and power input is connected through connector J101 (see Figure 1). Data is passed through the data transformer (T100) to the data output connector J100.Figure 1: EVALAg5800 Board LayoutLED 1 indicates that power is being supplied to the Ag5800. This can be disabled by removing the jumper link LK8, removing this link does not affect the power being delivered to the Ag5800.5.2 Diode Bridge SelectionThe EVALAg5800 on-board diode bridge rectifiers will ensure that the correct input polarity is applied to the Ag5800 by extracting the power from the input center taps of T100 and passing the voltage to the input of the Ag5800.Due to the amount of power and high currents involved in the IEEE802.3bt standard we would recommend using SMC package Schottky diodes with low reverse leakage current to be used as diode bridges. The EvalAg5800 is fitted with SS36 Schottkydiodes configured as a diode bridge.5.3 Input Signature and ClassificationThe EVALAg5800 board will automatically direct the power from J101 to the Ag5800’s input.The Ag5800 provides a 25K signature required to be powered from an IEEE compliant PSE. The EvalAg5800 has been designed to be powered from an IEEE802.3bt PSE such as SilverTel’s Ag6800 PSE module. However the Ag5800 has also provisions for being powered from Legacy PS E’s such as PoH or Phihongs 12.5K signature PSE.5.3.1 Powered from POH PSEIf the EvalAg5800 is connected to a PoH (Power Over HDBaseT) PSE then by fitting a link to LK5 will alter the classification that the Ag5800 displays allowing the PSE to send the full amount of power to the Ag5800.5.3.2 Powered from Phihong 12.5K Signature PSEThe Ag5800 is designed to work with Legacy PSE’s such as Phihongs POE80U/POE60U PSE. By fitting LK7 it will connect the SA1 and SA2 signature adjustment pins altering the Ag5800 signature to 12.5K.For all other PSE’s these pins should be left unconnected.5.3.3 PSE DetectWhen the EVALAG5800 board is connected to a compliant IEEE PSE the Ag5800 will detect the Type of PSE and the on board LED’s will illuminate accordingly:For example if an IEEE802.3at (PoE+) compliant PSE such as a Phihong POE36U-1AT-R is connected via J101 the PSE will detect Class 4 and output 2-Event classification pulses. In turn the Ag5800 detects these pulses and activates the Type 2 detect output. This output is connected to an opto-isolator to cross the isolation barrier and LED 7 will be illuminated.When the EVALAG5800 board is connected to an IEEE802.3bt Type 3 compliant PSE, the Ag5800 activates the Type 3 detect output and LED 8 will be illuminated.When the EVALAG5800 board is connected to an IEEE802.3bt Type 4 compliant PSE, the Ag5800 activates the Type 4 detect output and LED 9 will be illuminated.5.4 PD Output SelectionBefore using the EVALAg5800 evaluation board, it is important to setup the output configuration for the correct output voltage.The Ag5800 has two DC outputs that must be connected in parallel or in series. The outputs cannot be run independently so the EVALAg5800 board has copper pads, LK3 and LK6, which should be soldered appropriately for the selected voltage variant required.For parallel configuration (12V output) the bottom two pads of LK3 and bottom two pads of LK6 should be soldered together respectively (position “12V”) as shown in Figure 2 - VOUT1 connected to VOUT 2 and 0V 1 connected to 0V 2.For series outputs both pads must be in position “24V” shorting the top pads of LK3 and top pads of LK6 respectively – VOUT 1 connected to 0V 2.The DC10 connector J4 delivers a nominal 12V when the outputs are in parallel or 24V when the outputs are in series.The output power from the Ag5800 is supplied to the connectors J3 to J5 (see Figure1), where J3 provides the positive output and J5 provides the 0V return path.LED6 will be illuminated when the Ag5800 module outputs 12V or 24Vdc.Figure 2: EVALAg5800 Voltage Configuration- 12V5.5 Output AdjustmentThe Ag5800 has an ADJ pin, which allows the output voltage to be increased or decreased from its nominal value.LK2 is connected to the ADJ pin for the PD module to either increase or decrease the ouput voltage. When configured in 12V and the link is connected to the top and middle pins (R2), the Ag5800 output voltage will be decreased to ~10.5V. When the link LK2 is connected to the bottom and middle pins (R4), then the Ag5800 output voltage will be increased to ~15V. Figure 3: Output Adjustment shows how the ADJ pin is connected.Figure 3: Output Adjustment5.6 Heat SinkAs the Ag5800 is a 100W power supply, thermal management is essential and is designed to be used with a heat-sink at all times to distribute the heat away from the board so the board can run at full operation.A suggested heat-sink is shown in Section 10 of the Ag5800 datasheet.5.7 Ag5800 InformationFull operating conditions and feature set can be found in the Ag5800 product datasheet, available from .6 Set-up6.1 Power Supply InputFigure 4 shows the basic set up using SilverTel’s EVALAG6800 evaluation board along with the EVALAG5800 evaluation board with a power supply input to JP1.The equipment required: -Power supply Input +57V IN e.g. Meanwell SP-240-48 available from mouser which will give 57VEthernet Data Cable (CAT5e cable) Input and OutputCAT5e or CAT6 interlink cable (between EvalAg6800 and EvalAg5800)Output power cableFigure 4: Basic set-up6.2 Data InputTo pass data via the Evaluation boards, the data input (e.g. Internet) can be connected to J100 on the Ag6800 Eval Board using a cat5e cable. The data is then passed through the data transformer, where power is added and sent out via connector J101 of the Ag6800 Eval Board. The Data and power is extracted through J100 of the EVALAg5800 board and then divided into its separate power and data through the data transformer. The data output is then available from J100 of the EvalAg5800 Board, which can then be connected to your device.6.3 Link settingsLK2 – Output adjust selectLK4 – Output power LEDLK5 – Connection for POH PSELK7 – Signature Adjust- 12.5KLK8 – Input power LED circuit。

版本变更记录目录1 方案特性 (1)2 应用领域 (1)3 效率测试 (2)3.1 输入DC (2)3.1.1 效率曲线 (2)3.1.2 最高效率点现场图 (2)3.2 输入AC220V (3)3.2.1 效率曲线 (3)3.2.2 最高效率点现场图 (3)4 方案图片 (4)4.1 PCBA图 (4)5 LLC半桥谐振拓扑原理说明 (4)6 方案原理图及工作原理描述 (5)6.1 LLC频率设置 (6)6.2 恒压输出设置 (6)6.3 浮充电压设置 (6)6.4 输出电流设置 (6)6.5 转灯和风扇开启电流设置 (6)7 方案PCB (7)7.1 元器件位图以及走线图 (7)7.1.1 底板 (7)7.1.2 辅助电源 (7)8 方案板元器件列表 (8)8.1 BOM表 (8)8.2 关键元器件选型 (10)8.2.1 开关MOS管 (10)8.2.2 变压器 (10)60V12A铅酸电池充电器方案说明书1 方案特性⏹前级采用高压谐振变换器控制芯片EG6599⏹后级采用可编程电源管理芯片EG4328⏹输入电压范围：AC 220±10%⏹恒流输出：12.0A±1A （可定制）⏹恒压输出：DC73.5V±0.2V （可定制）⏹浮充电压：DC68.8V±0.2V（可定制）⏹转灯电流：2A±0.1A （可定制）⏹智能化充电管理，多重定时控制，可以防止电池过充⏹充电智能温度控制，高温充电功率智能下降，更好的保护充电器⏹可定制为锂电池充电器⏹输出短路保护反接保护⏹LED充电指示灯、12V风扇接口⏹PCBA尺寸：L163.5mm × W105.5mm× H55mm2 应用领域⏹电动三轮车充电器⏹电动四轮车充电器3 效率测试3.1 输入DC3.1.1 效率曲线备注：输入DC电压接输入电解电容两端。

3.1.2 最高效率点现场图输入功率输出功率效率图3-1 负载8A效率现场图注：效率=输出功率/输入功率。