if (IsMobile()) {
jQuery("iframe").attr("width", "100%");
jQuery("iframe").attr("height", jQuery("#post_body").width() * 9 / 16);
} else jQuery("iframe").attr("height", jQuery("#post_body").width() * 9 / 16 + 120);手机通道:哔哩哔哩
外观规格介绍酷冷至尊 V PLATINUM 1600 V2设计理念为“次世代”的全模组电源产品,官方介绍称这款电源旨在满足用户对下一代游戏及机器学习的需求,所以这款电源无论是额定功率、接口数量亦或是设计细节都“配置拉满”。当工作在115-220V的输入电压时,酷冷至尊 V PLATINUM 1600 V2的额定功率为1600W。在接口数量方面,这款电源配备了5个6+2PIN PCIE接口、2个4+4PIN CPU接口以及2个12V-2×6的原生PCIE 5.1接口,足以满足大部分高端平台的使用需求。此外在线缆方面,这款酷冷至尊 V PLATINUM 1600 V2原装的12V-2×6线缆配有90°弯折连接器,更方便用户理线。在设计细节方面,酷冷至尊 V PLATINUM 1600 V2采用了全日系电容,搭配了紫色的阳极镀层散热片以及酷冷高端的莫比乌斯风扇,并且为了保障用户可以将这款电源延续至下一代平台使用,酷冷至尊 V PLATINUM 1600 V2为用户提供了12年质保服务。
预览var tableid = settableid();
document.write('');
Table().init({
header:["酷冷至尊V PLATINUM 1600 V2电源规格参数"],
width: '92%',
columnWidth: 'MAX', //表格单元宽度,"MAX"最大内容显示,""AVG"平均,"AUTO"自动,指定[15,16,20]
id: tableid,
data:[ ["基本规格",""], ["型号","MPZ-G002-AFAP"], ["额定功率","1600W"], ["结构","交错式PFC + 半桥LLC谐振 + 同步整流 + DC-DC"], ["AC输入","100~240Vac / 16~8A / 50~60Hz"], ["效率认证","80Plus白金牌"], ["尺寸","160 * 150 * 86 mm"], ["净重","2.21 Kg"], ["风扇","135mm莫比乌斯风扇风扇"], ["质保","12年"], ["售价","2299元"], ["DC输出",""], ["电压","+3.3V","+5V","+12V","-12V","+5Vsb"], ["最大电流","20A","20A","133.3A","0.3A","3A"], ["联合功率","120W","---","1600W","3.6W","15W"], ["接口数量",""], ["24pin主供电","1个",], ["4+4pin CPU供电","2个",], ["6+2pin PCI-E供电","5个",], ["12+4pin 12VHPWR供电","2个",], ["SATA供电","16个",], ["D型4pin供电","4个",] ] });除去上述突出的规格参数,酷冷至尊 V PLATINUM 1600 V2在外观设计方面同样十分用心,电源正面采用了蜂窝状的风扇格栅,同时配有一条标志着酷冷至尊的紫色直线贯穿正面及侧面,配合藏青色的莫比乌斯风扇让电源正面十分吸睛。而在机身侧面,这款电源的外壳做了下凹式设计,让电源在视觉上更具立体感。
预览var istart = 1; //通过编号生成,图片开始的编号,不强求连续,但尽量连续编号,小图+s,如1s;
// var istart=['1','2','3','4','5','6']; //通过文件名生成,大图文件名,不含后缀,小图以s结尾
var ilast = 6; //结束图片的编号,如果是文件名生成,这个数字不用改
var tips = []; //图片说明,按顺序列,没有就空着
var iurl = "Ly9pbWcuZXhwcmV2aWV3LmNvbS9yZXZpZXcvMjAyNC8wNC9DT09MSU5HLVZQLTE2MDAtVjIvZXhwdG9fbWFyay9QMi8="; //图片目录
var col = 3; //列数,一排几张图,1 2 3 4可选
var nomore = 0; //大小图是否一样,1为一样,不需要s后缀的小图,用于列图片
var gap = 0; //图片间距修正,默认0
var bd = 0; //描边,0或1,默认0
var full = 0; //是否全屏,0 或 1
var pic = ".jpg"; //图片格式
WaterInit(pic, iurl, col, gap, bd, istart, ilast, full, tips, nomore);内部用料介绍拆开电源后我们可以看到酷冷至尊 V PLATINUM 1600 V2使用了交错式PFC +半桥LLC谐振+ 同步整流+DC-DC,其中交错式PFC可大幅提高转换效率,得益于此,酷冷至尊 V PLATINUM 1600 V2电源获得了80PLUS铂金牌的认证。在电源内部,紫色阳极镀层散热片看着十分亮眼,该散热片的特色在于鳍片采用了斜切设计,可更有效地引出热量。而散热片夹着的是电源的主电容,其配置为两颗日系主流大电容(450V/680μF/105℃),为1600W的额定输出功率提供了强大的储能保障。
预览var istart = 1; //通过编号生成,图片开始的编号,不强求连续,但尽量连续编号,小图+s,如1s;
// var istart=['1','2','3','4','5','6']; //通过文件名生成,大图文件名,不含后缀,小图以s结尾
var ilast = 3; //结束图片的编号,如果是文件名生成,这个数字不用改
var tips = []; //图片说明,按顺序列,没有就空着
var iurl = "Ly9pbWcuZXhwcmV2aWV3LmNvbS9yZXZpZXcvMjAyNC8wNC9DT09MSU5HLVZQLTE2MDAtVjIvZXhwdG9fbWFyay9QNS8="; //图片目录
var col = 3; //列数,一排几张图,1 2 3 4可选
var nomore = 0; //大小图是否一样,1为一样,不需要s后缀的小图,用于列图片
var gap = 0; //图片间距修正,默认0
var bd = 0; //描边,0或1,默认0
var full = 0; //是否全屏,0 或 1
var pic = ".jpg"; //图片格式
WaterInit(pic, iurl, col, gap, bd, istart, ilast, full, tips, nomore);预览var tableid = settableid();
document.write('');
Table().init({
title: "酷冷至尊V PLATINUM 1600 V2电源 | 内部用料",
header: ["结构", "元件型号与数量"],
width: '91%',
columnWidth: 'AUTO', //表格宽度,"AVG"平均,"AUTO"自动(默认),指定[15,16,20]
id: tableid,
data: [["EMI部件","X电容 * 2Y电容 * 4共模电感 * 2NTC * 1 + 继电器MOV * 1"],["主电容","Nichicon TK 450V/680μF/105℃ * 2"],["整流桥","GBU2508 * 2 , 800V/25A@150℃"],["PFC开关管","IPW60R06P7 * 2 , 600V/48A@150℃/60mΩ"],["PFC二极管","60F60WT * 2 , 600V/60A@175°C"],["主开关管","IPW60R60P7 * 2 , 600V/48A@150°C/60mΩ"],["主控方案","德州仪器 UCC28063DR + Champion CU6901V"],["+12V同步整流","NCEP40T15AGU * 12 , 40V/150A@150°C/1.45mΩ"],["+5V & +3.3V DC-DC","APW7159CKI * 1FTG014N04SA * 8 , 40V/100A@150℃/1.4mΩ"]]
});酷冷至尊V PLATINUM 1600 V2电源测试均衡负载与ATX3.0验证我们对参测的电源进行120%额定功率下的230V输入均衡负载测试以及纹波测试,该项测试的成绩不纳入超能指数的计算中,单纯是用来观察电源的功率余量。
预览var tableid = settableid();
document.write('');
Table().init({
title: "酷冷至尊V PLATINUM 1600 V2电源 均衡负载测试",
header: ["输出功率(W)","12V电压(V)","5V电压(V)","3.3V电压(V)","-12V电压(V)","5VSB电压(V)","115V效率(%)","PF值","230V效率(%)"],
width: '91%',
columnWidth: 'AUTO', //表格宽度,"AVG"平均,"AUTO"自动(默认),指定[15,16,20]
id: tableid,
data: [["32","12.222 ","5.088 ","3.362 ","-11.921 ","5.165 ","63.301 ","0.378 ","66.382 "],["50","12.222 ","5.082 ","3.360 ","-11.884 ","5.159 ","70.804 ","0.453 ","72.977 "],["100","12.190 ","5.081 ","3.359 ","-11.885 ","5.156 ","83.133 ","0.684 ","83.846 "],["150","12.184 ","5.076 ","3.355 ","-11.887 ","5.154 ","87.122 ","0.800 ","87.896 "],["200","12.200 ","5.073 ","3.350 ","-11.890 ","5.151 ","89.142 ","0.864 ","90.149 "],["250","12.195 ","5.066 ","3.346 ","-11.894 ","5.149 ","90.377 ","0.904 ","91.560 "],["300","12.170 ","5.064 ","3.342 ","-11.895 ","5.146 ","91.032 ","0.928 ","92.256 "],["350","12.160 ","5.059 ","3.339 ","-11.900 ","5.145 ","91.389 ","0.944 ","92.765 "],["400","12.179 ","5.055 ","3.335 ","-11.901 ","5.142 ","91.684 ","0.956 ","93.309 "],["450","12.152 ","5.052 ","3.331 ","-11.901 ","5.141 ","91.786 ","0.964 ","93.441 "],["500","12.172 ","5.046 ","3.326 ","-11.906 ","5.139 ","91.865 ","0.970 ","93.792 "],["550","12.150 ","5.044 ","3.324 ","-11.906 ","5.137 ","91.741 ","0.975 ","93.748 "],["600","12.147 ","5.040 ","3.319 ","-11.909 ","5.134 ","92.095 ","0.978 ","93.838 "],["650","12.157 ","5.039 ","3.318 ","-11.911 ","5.133 ","92.213 ","0.982 ","94.056 "],["700","12.130 ","5.036 ","3.316 ","-11.914 ","5.130 ","92.273 ","0.984 ","94.031 "],["750","12.125 ","5.032 ","3.315 ","-11.914 ","5.129 ","92.186 ","0.986 ","94.059 "],["800","12.144 ","5.032 ","3.313 ","-11.915 ","5.128 ","92.255 ","0.987 ","94.245 "],["850","12.115 ","5.030 ","3.311 ","-11.916 ","5.126 ","92.231 ","0.988 ","94.104 "],["900","12.139 ","5.028 ","3.309 ","-11.920 ","5.124 ","92.266 ","0.990 ","94.311 "],["950","12.120 ","5.026 ","3.309 ","-11.921 ","5.121 ","92.080 ","0.991 ","94.197 "],["1000","12.117 ","5.025 ","3.306 ","-11.921 ","5.120 ","92.100 ","0.991 ","94.132 "],["1050","12.099 ","5.021 ","3.304 ","-11.924 ","5.116 ","92.006 ","0.992 ","94.010 "],["1100","12.125 ","5.021 ","3.303 ","-11.925 ","5.115 ","91.693 ","0.990 ","93.946 "],["1150","12.120 ","5.020 ","3.300 ","-11.927 ","5.114 ","91.441 ","0.991 ","93.906 "],["1200","12.115 ","5.017 ","3.299 ","-11.929 ","5.113 ","91.452 ","0.991 ","93.870 "],["1250","12.105 ","5.015 ","3.297 ","-11.931 ","5.110 ","91.368 ","0.992 ","93.781 "],["1300","12.082 ","5.015 ","3.295 ","-11.931 ","5.108 ","91.226 ","0.993 ","93.587 "],["1350","12.102 ","5.012 ","3.294 ","-11.934 ","5.106 ","90.933 ","0.993 ","93.704 "],["1400","12.102 ","5.011 ","3.291 ","-11.934 ","5.102 ","90.847 ","0.994 ","93.673 "],["1450","12.072 ","5.009 ","3.290 ","-11.936 ","5.100 ","90.808 ","0.994 ","93.434 "],["1500","12.067 ","5.008 ","3.289 ","-11.939 ","5.100 ","90.520 ","0.994 ","93.332 "],["1550","12.087 ","5.006 ","3.286 ","-11.940 ","5.097 ","90.425 ","0.995 ","93.440 "],["1600","12.057 ","5.003 ","3.286 ","-11.941 ","5.095 ","90.162 ","0.995 ","93.166 "],["最大电压偏离","1.9% ","1.6%","1.8%","-1.0%","3.2%","-","-","-"],["电压调整率","1.4%","1.6%","2.2%","0.5%","1.3%","90.986 ","平均效率(%)","92.855 "],["OCP保护(100ms)","172.0A","27.0A","26.5A","OPP保护(100ms)","2107W","0.994 ","典型PF值","0.951 "]]
});酷冷至尊V PLATINUM 1600 V2电源额定功率为1600W,在230V输入电压下的OPP过功率保护分别为2107W,约为额定功率的132%。
预览var tableid = settableid();
document.write('');
Table().init({
title: "酷冷至尊V PLATINUM 1600 V2电源 | 低频动态负载",
header: ["动态负载","频率","Power @ Tc","Power @ Te","峰值电压-高Vpk-High","峰值电压-低Vpk-Low","测试结果"],
width: '92%',
columnWidth: 'MAX', //表格单元宽度,"MAX"最大内容显示,""AVG"平均,"AUTO"自动,指定[15,16,20]
id: tableid,
data: [["动态负载","频率","Power @ Tc","Power @ Te","峰值电压-高","峰值电压-低","测试结果"],["12V轻载 ","50Hz","15.4W","1134.0W","12.40 ","11.36 ","通过"],["12V重载","50Hz","505.4W","1625.1W","12.15 ","11.91 ","通过"],["5V轻载","50Hz","3.1W","32.1W","5.15 ","5.03 ","通过"],["5V重载","50Hz","376.7W","406.7W","5.16 ","5.09 ","通过"],["3.3V轻载","50Hz","3.1W","22.6W","3.46 ","3.26 ","通过"],["3.3V重载","50Hz","357.4W","377.2W","3.44 ","3.23 ","通过"],["12VHPWR -100%","50Hz","60W","600W","12.20 ","12.13 ","通过"]]
});预览var tableid = settableid();
document.write('');
Table().init({
title: "酷冷至尊V PLATINUM 1600 V2电源 | 低频动态负载",
header: ["动态负载","频率","Power @ Tc","Power @ Te","峰值电压-高Vpk-High","峰值电压-低Vpk-Low","测试结果"],
width: '92%',
columnWidth: 'MAX', //表格单元宽度,"MAX"最大内容显示,""AVG"平均,"AUTO"自动,指定[15,16,20]
id: tableid,
data: [["动态负载","频率","Power @ Tc","Power @ Te","峰值电压-高","峰值电压-低","测试结果"],["12V轻载 - 2","10kHz","15.4W","1134.0W","12.26 ","12.00 ","通过"],["12V重载 - 2","10kHz","505.4W","1625.1W","12.22 ","11.98 ","通过"],["5V轻载","10kHz","3.1W","32.1W","5.14 ","5.04 ","通过"],["5V重载","10kHz","376.7W","406.7W","5.14 ","5.12 ","通过"],["3.3V轻载","10kHz","3.1W","22.6W","3.44 ","3.30 ","通过"],["3.3V重载","10kHz","357.4W","377.2W","3.41 ","3.27 ","通过"],["12VHPWR -100%","10kHz","60W","600W","12.18 ","12.16 ","通过"]]
});预览var tableid = settableid();
document.write('');
Table().init({
title: "酷冷至尊V PLATINUM 1600 V2电源 | 动态超载",
header: ["动态超载","Duty Cycle","Tc","Te","Power @ Tc","Power @ Te","12V峰值电压-高12V Vpk-High","12V峰值电压-低12V Vpk-Low","测试结果"],
width: '92%',
columnWidth: 'MAX', //表格单元宽度,"MAX"最大内容显示,""AVG"平均,"AUTO"自动,指定[15,16,20]
id: tableid,
data: [["动态超载","Duty Cycle","Tc","Te","Power @ Tc","Power @ Te","12V Vpk-High","12V Vpk-Low","测试结果"],["整机 - 200%","5.0%","1900μs","100μs","1468.3W","3200.0W","12.08 ","11.98 ","通过"],["整机 - 180%","8.0%","11.5ms","1ms","1435.7W","2880.0W","12.31 ","11.85 ","通过"],["整机 - 160%","12.5%","70ms","10ms","1410.5W","2560.0W","12.25 ","11.74 ","通过"],["整机 - 120%","25.0%","300ms","100ms","1478.0W","1920.0W","12.17 ","11.70 ","通过"],["12V-2x6 - 300%","5.0%","1900μs","100μs","600.0W","1800.0W","12.17 ","12.11 ","通过"]]
});在ATX 3.1测试中,酷冷至尊V PLATINUM 1600 V2电源在230V输入环境下2%轻载输出的转换效率高达66.382%,而且这款电源在120%、160%、180%、200%瞬时动态输出下的峰值功率都满足英特尔官方标准,因此我们也可以基本判定这款电源具备ATX 3.1相关素质。
转换效率预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | 转换效率";
var subtitle_text = "www.expreview.com | Higher is better";
var xname = "功率W"; //X轴单位
var yname = ["百分比%"]; //Y轴1单位,Y轴2单位(如果有的话)
var leftside = "8%"; //左边空白
var yax = 0; //是否双Y轴
var yminmax = [60, 100]; //Y轴最小值最大值,默认全0为自动,全1为自动以最小值数据最小值
var fill = 0; //0-1表示填充透明度
var sn = 0; //坐标轴分割为多少段
var mp = 1; //是否显示最大最小值 0为不显示
var symbolsize = 4; //数据点的大小,0为不显示
var autocolor = 0; //是否自动颜色
var colors = ['#5793f3', '#d14a61'];
var data_arr =[["输出功率(W)","115V效率(%)","230V效率(%)"],["32 ","63.301","66.382"],["50","70.804","72.977"],["100","83.133","83.846"],["150","87.122","87.896"],["200","89.142","90.149"],["250","90.377","91.56"],["300","91.032","92.256"],["350","91.389","92.765"],["400","91.684","93.309"],["450","91.786","93.441"],["500","91.865","93.792"],["550","91.741","93.748"],["600","92.095","93.838"],["650","92.213","94.056"],["700","92.273","94.031"],["750","92.186","94.059"],["800","92.255","94.245"],["850","92.231","94.104"],["900","92.266","94.311"],["950","92.08","94.197"],["1000","92.1","94.132"],["1050","92.006","94.01"],["1100","91.693","93.946"],["1150","91.441","93.906"],["1200","91.452","93.87"],["1250","91.368","93.781"],["1300","91.226","93.587"],["1350","90.933","93.704"],["1400","90.847","93.673"],["1450","90.808","93.434"],["1500","90.52","93.332"],["1550","90.425","93.44"],["1600","90.162","93.166"]];
ZHXInit(title_text, subtitle_text, xname, yname, leftside, yax, fill, sn, colors, data_arr, mp, autocolor, yminmax, symbolsize);而在功率效率测试当中,这款电源在230V的输入环境下平均转换效率为92.9%,当电源处于900W负载输出的工作状态时,转换效率可达到峰值,具体数据为94.311%。当输出功率超过200W时这款电源的转换效率即高于90%,在1600W满载输出的情况下,其转换效率超过93.166%。而在115V的输入环境下其平均转换效率为91%,峰值转换效率出现在700W输出时,具体数据为92.273%,当输出超过250W时,其转换效率即高于90%,满载输出的状态下其转换效率为90.162%。
电压稳定性预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | +12V输出电压";
var subtitle_text = "www.expreview.com";
var xname = "功率W"; //X轴单位
var yname = ["电压V"]; //Y轴1单位,Y轴2单位(如果有的话)
var leftside = "8%"; //左边空白
var yax = 0; //是否双Y轴
var yminmax = [11.2, 12.8]; //Y轴最小值最大值,默认全0为自动,全1为自动以最小值数据最小值
var fill = 0; //0-1表示填充透明度
var sn = 10; //坐标轴分割为多少段
var mp = 0; //是否显示最大最小值 0为不显示
var symbolsize = 6; //数据点的大小,0为不显示
var autocolor = 0; //是否自动颜色
var colors = ['#32cd32', '#FF8C00', '#32cd32'];
var data_arr =[["输出功率(W)","上限","12V电压","下限"],["32 ","12.6","12.222","11.4"],["50","12.6","12.222","11.4"],["100","12.6","12.19","11.4"],["150","12.6","12.184","11.4"],["200","12.6","12.2","11.4"],["250","12.6","12.195","11.4"],["300","12.6","12.17","11.4"],["350","12.6","12.16","11.4"],["400","12.6","12.179","11.4"],["450","12.6","12.152","11.4"],["500","12.6","12.172","11.4"],["550","12.6","12.15","11.4"],["600","12.6","12.147","11.4"],["650","12.6","12.157","11.4"],["700","12.6","12.13","11.4"],["750","12.6","12.125","11.4"],["800","12.6","12.144","11.4"],["850","12.6","12.115","11.4"],["900","12.6","12.139","11.4"],["950","12.6","12.12","11.4"],["1000","12.6","12.117","11.4"],["1050","12.6","12.099","11.4"],["1100","12.6","12.125","11.4"],["1150","12.6","12.12","11.4"],["1200","12.6","12.115","11.4"],["1250","12.6","12.105","11.4"],["1300","12.6","12.082","11.4"],["1350","12.6","12.102","11.4"],["1400","12.6","12.102","11.4"],["1450","12.6","12.072","11.4"],["1500","12.6","12.067","11.4"],["1550","12.6","12.087","11.4"],["1600","12.6","12.057","11.4"]];
ZHXInit(title_text, subtitle_text, xname, yname, leftside, yax, fill, sn, colors, data_arr, mp, autocolor, yminmax, symbolsize);预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | +5V输出电压";
var subtitle_text = "www.expreview.com";
var xname = "功率W"; //X轴单位
var yname = ["电压V"]; //Y轴1单位,Y轴2单位(如果有的话)
var leftside = "8%"; //左边空白
var yax = 0; //是否双Y轴
var yminmax = [4.6, 5.4]; //Y轴最小值最大值,默认全0为自动,全1为自动以最小值数据最小值
var fill = 0; //0-1表示填充透明度
var sn = 10; //坐标轴分割为多少段
var mp = 0; //是否显示最大最小值 0为不显示
var symbolsize = 6; //数据点的大小,0为不显示
var autocolor = 0; //是否自动颜色
var colors = ['#32cd32', '#2550FE', '#32cd32'];
var data_arr = [["输出功率(W)","上限","5V电压","下限"],["32 ","5.25","5.088","4.75"],["50","5.25","5.082","4.75"],["100","5.25","5.081","4.75"],["150","5.25","5.076","4.75"],["200","5.25","5.073","4.75"],["250","5.25","5.066","4.75"],["300","5.25","5.064","4.75"],["350","5.25","5.059","4.75"],["400","5.25","5.055","4.75"],["450","5.25","5.052","4.75"],["500","5.25","5.046","4.75"],["550","5.25","5.044","4.75"],["600","5.25","5.04","4.75"],["650","5.25","5.039","4.75"],["700","5.25","5.036","4.75"],["750","5.25","5.032","4.75"],["800","5.25","5.032","4.75"],["850","5.25","5.03","4.75"],["900","5.25","5.028","4.75"],["950","5.25","5.026","4.75"],["1000","5.25","5.025","4.75"],["1050","5.25","5.021","4.75"],["1100","5.25","5.021","4.75"],["1150","5.25","5.02","4.75"],["1200","5.25","5.017","4.75"],["1250","5.25","5.015","4.75"],["1300","5.25","5.015","4.75"],["1350","5.25","5.012","4.75"],["1400","5.25","5.011","4.75"],["1450","5.25","5.009","4.75"],["1500","5.25","5.008","4.75"],["1550","5.25","5.006","4.75"],["1600","5.25","5.003","4.75"]];
ZHXInit(title_text, subtitle_text, xname, yname, leftside, yax, fill, sn, colors, data_arr, mp, autocolor, yminmax, symbolsize);预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | +3.3V输出电压";
var subtitle_text = "www.expreview.com";
var xname = "功率W"; //X轴单位
var yname = ["电压V"]; //Y轴1单位,Y轴2单位(如果有的话)
var leftside = "8%"; //左边空白
var yax = 0; //是否双Y轴
var yminmax = [3.05, 3.55]; //Y轴最小值最大值,默认全0为自动,全1为自动以最小值数据最小值
var fill = 0; //0-1表示填充透明度
var sn = 10; //坐标轴分割为多少段
var mp = 0; //是否显示最大最小值 0为不显示
var symbolsize = 6; //数据点的大小,0为不显示
var autocolor = 0; //是否自动颜色
var colors = ['#32cd32', '#9B0082', '#32cd32'];
var data_arr =[["输出功率(W)","上限","3.3V电压","下限"],["32 ","3.47","3.362","3.13"],["50","3.47","3.36","3.13"],["100","3.47","3.359","3.13"],["150","3.47","3.355","3.13"],["200","3.47","3.35","3.13"],["250","3.47","3.346","3.13"],["300","3.47","3.342","3.13"],["350","3.47","3.339","3.13"],["400","3.47","3.335","3.13"],["450","3.47","3.331","3.13"],["500","3.47","3.326","3.13"],["550","3.47","3.324","3.13"],["600","3.47","3.319","3.13"],["650","3.47","3.318","3.13"],["700","3.47","3.316","3.13"],["750","3.47","3.315","3.13"],["800","3.47","3.313","3.13"],["850","3.47","3.311","3.13"],["900","3.47","3.309","3.13"],["950","3.47","3.309","3.13"],["1000","3.47","3.306","3.13"],["1050","3.47","3.304","3.13"],["1100","3.47","3.303","3.13"],["1150","3.47","3.3","3.13"],["1200","3.47","3.299","3.13"],["1250","3.47","3.297","3.13"],["1300","3.47","3.295","3.13"],["1350","3.47","3.294","3.13"],["1400","3.47","3.291","3.13"],["1450","3.47","3.29","3.13"],["1500","3.47","3.289","3.13"],["1550","3.47","3.286","3.13"],["1600","3.47","3.286","3.13"]];
ZHXInit(title_text, subtitle_text, xname, yname, leftside, yax, fill, sn, colors, data_arr, mp, autocolor, yminmax, symbolsize);在电压稳定性方面该产品表现则中规中矩,这款电源的+12V、+5V以及+3.3V的电压偏移率均在1%-2%的区间内,但3.3V的电压调整率较高,具体数据为2.24%。
交叉负载交叉负载测试项目我们按照Intel ATX12V 3.0和SSI EPS12V 2.92电源设计指导的要求,制定出850W电源交叉负载图表。
值得注意的是,我们并非原封照搬设计规范,而只选择其中比较有实际意义的4个测试点,分别是交叉负载框里的左下、左上、右上和右下角四个点。
这四个点的意义分别为:
左下角(A点):整机最小负载; 左上角(B点):辅路最大负载、12V最小负载,例如多个机械硬盘同时启动的情况; 右上角(C点):辅路最大负载、整机满载; 右下角(D点):12V最大负载、辅路最小负载,例如使用单个固态硬盘运行3D游戏的情况;
测试点的X坐标表示总的+12V的输出功率,Y坐标表示+5V和+3.3V的输出功率之和。
交叉负载的测试与前面的均匀负载测试的评判标准一致,电压偏离额定值越少越好,各路偏离率允许的值都为±5%。
预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | 交叉负载设置 ";
var subtitle_text = "www.expreview.com |1200W | Unit: W";
var data = [ [6, 4.15],[100, 150],[1047, 150],[1172, 25]];
POLInit(title_text, subtitle_text, data);预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | 交叉负载测试 | 电压偏离度"; // 标题文字
var subtitle_text = "www.expreview.com | Lower is better"; // 副标题文字
var unit_text = "%"; //单位
var leftside = "8%"; //左边空白
var move = 0; //是否动态 1表示动态
var mblur = 0.1; //是否模糊,效果 0-1
//var mycolor = ['#cc0000', '#aaa', '#bbb', '#ccc', '#ddd', '#eee']; //自定义颜色
//var mycolor = ['#cc0000', '#953f61', '#72355f', '#ccc', '#d77169']; //自定义颜色
var mycolor = ['#32cd32','#FF8C00','#2550FE','#9B0082','#32cd32']; //自定义颜色
var data_arr = [{"type":"A","上限":"5","12V":"1.89","5V":"1.78","3.3V":"1.97","下限":"-"},{"type":"B","上限":"-","12V":"1.42","5V":"0.90","3.3V":"0.76","下限":"-"},{"type":"C","上限":"-","12V":"0.68","5V":"-0.02","3.3V":"-0.64","下限":"-"},{"type":"D","上限":"-","12V":"0.58","5V":"0.50","3.3V":"0.15","下限":"-5"}];
ZHDInit(title_text, subtitle_text, unit_text, leftside, move, mblur, mycolor, data_arr);酷冷至尊V PLATINUM 1600 V2电源在交叉负载测试中三路输出的电压变化虽然各有不同,但是从幅度来说都是比较小的,且三路电压偏离度均未超过±2%,不会对使用体验造成影响。
输出纹波纹波和噪声是电源直流输出里夹杂的交流成分,如果用示波器观察,就会看到电压上下轻微波动,像水波纹一样,所以称之为纹波。按照英特尔ATX12V 3.0规定,+12V、+5V、+3.3V的输出纹波与噪声的Vp-p(峰-峰值)分别不得超过120mV、50mV、50mV。我们使用数字示波器在20MHz模拟带宽下按照英特尔规范给治具板测量点处并接去耦电容,对电源满载以及超载至120%功率下的输出纹波进行测量,以低频下的纹波峰峰值作为打分基准。
预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | 输出纹波"; // 标题文字热管
var subtitle_text = "www.expreview.com | Lower is better "; // 副标题文字
var unit_text = "mV "; //单位
var leftside = "8%"; //左边空白
var topside = 50; //每组间距
var mblur = 0.05; //模糊效果
var bgopacity = 0; //背景透明度,0为全透明
var mysort = 0; //是否排序
var myper = 1; //是否显示百分比
var mylengend = true; //是否显示图例
var toplegend = 50; //图例上端空白
var labelcolor = '#fff'; // 标签文字颜色
var legendwidth = '90%'; //图例宽度
var titlecolor = '#000'; //标题文字颜色
var barheight = 32; //柱高度,当为7倍数时,不显示刻度线
var bargap = 3; //柱间距,相当于百分值,即2%
var xaxismax = null; //指定X轴最大值,null时为自动
var autocolor = 0; //是否自动判断颜色,0为否,1根据品牌生成颜色 ,如果 >1 则为AMD NV Intel 标准色,
var mycolor = ['#953f61', '#72355f', '#d77169']; //自动生成随机颜色 也可ANIColor("NVIDIA",3)可以生成三种NV绿,可替换成AMD Intel
//var mycolor = ANIColor('AMD',4); //这样自动生成4种AMD红色,其它如NVIDIA、Intel同理
//var mycolor=['#953f61', '#72355f', '#d77169']; //自定义颜色 AMD红 '#9F1417', NV绿 '#82B41B', Intel蓝 '#0075C5',
//var mycolor = ['#0dcc47', '#969696', '#6f7b80','5A94DF'];
var data_arr = [{ "type": "+12V纹波", "100%满载": "28.1", "上限": "120" }, { "type": "+5V纹波", "100%满载": "12.8", "上限": "50" }, { "type": "+3.3V纹波", "100%满载": "18.5", "上限": "50" },];
TDInit(title_text, subtitle_text, unit_text, leftside, topside, mblur, bgopacity, mysort, myper, mylengend, toplegend, labelcolor, legendwidth, titlecolor, barheight, bargap, mycolor, data_arr, autocolor, xaxismax);酷冷至尊V PLATINUM 1600 V2电源电源在100%满载时的+12V、+5V、+3.3V低频纹波为28.1mV、12.8mV和18.5mV,纹波抑制还是比较优秀的。
保持时间掉电保持时间(Hold-up Time)是指电源掉电之后电压输出值跌出范围允许的5%的时间,我们测量的是+12V、+5V和Power-OK(Power-Good)信号的保持时间。
SSI EPS12V 2.92服务器电源设计指导中对输出电压保持时间的要求是电源在75%的负载下保持时间应该大于18ms,而Power-OK信号的保持时间要求是大于17ms。
掉电保持时间如此受关注,是因为其很大程度上关系到硬件的寿命,Power-OK保持17ms意味着面临17ms以内的掉电情况时电脑能持续运行而不出现关机、重启的状况,而各路电压保持18ms或者更长的时间,是为了在掉电发生时各个硬件能够做出应急处理,比如机械硬盘的磁头归位 、SSD的掉电保护。
酷冷至尊V PLATINUM 1600 V2电源的保持时间是在75%负载(DC输出637.5W)的情况下测得。
预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | 保持时间"; // 标题文字热管
var subtitle_text = "www.expreview.com | Higher is better "; // 副标题文字
var unit_text = "毫秒ms "; //单位
var leftside = "8%"; //左边空白
var topside = 50; //每组间距
var mblur = 0.05; //模糊效果
var bgopacity = 0; //背景透明度,0为全透明
var mysort = 0; //是否排序
var myper = 1; //是否显示百分比
var mylengend = true; //是否显示图例
var toplegend = 50; //图例上端空白
var labelcolor = '#fff'; // 标签文字颜色
var legendwidth = '90%'; //图例宽度
var titlecolor = '#222'; //标题文字颜色
var barheight = 32; //柱高度,当为7倍数时,不显示刻度线
var bargap = 3; //柱间距,相当于百分值,即2%
var xaxismax = 70; //指定X轴最大值,null时为自动
var autocolor = 0; //是否自动判断颜色,0为否,1根据品牌生成颜色 ,如果 >1 则为AMD NV Intel 标准色,
var mycolor = ['#953f61', '#72355f', '#d77169']; //自动生成随机颜色 也可ANIColor("NVIDIA",3)可以生成三种NV绿,可替换成AMD Intel
//var mycolor = ANIColor('AMD',4); //这样自动生成4种AMD红色,其它如NVIDIA、Intel同理
//var mycolor=['#953f61', '#72355f', '#d77169']; //自定义颜色 AMD红 '#9F1417', NV绿 '#82B41B', Intel蓝 '#0075C5',
//var mycolor = ['#0dcc47', '#969696', '#6f7b80','5A94DF'];
var data_arr = [{ "type": "+12V", "75%负载": "34.6", "100%负载": "27.6", "下限": "12" }, { "type": "+5V", "75%负载": "34.5", "100%负载": "27.6", "下限": "12" }, { "type": "+3.3V", "75%负载": "33.0", "100%负载": "22.8", "下限": "12" }, { "type": "Power-OK", "75%负载": "28.1", "100%负载": "21.6", "下限": "11" },];
TDInit(title_text, subtitle_text, unit_text, leftside, topside, mblur, bgopacity, mysort, myper, mylengend, toplegend, labelcolor, legendwidth, titlecolor, barheight, bargap, mycolor, data_arr, autocolor, xaxismax);酷冷至尊V PLATINUM 1600 V2电源在75%负载下的PG/+12V/+5V/+3.3V保持时间分别为28.1ms、34.6ms、34.5ms和33.0ms,在100%负载下则分别为21.6ms、27.6ms、27.6ms和22.8ms,四项保持时间全部达标且留有充足的余量。
散热风扇转速预览var title_text = "酷冷至尊V PLATINUM 1600 V2电源 | 风扇转速";
var subtitle_text = "www.expreview.com";
var xname = "功率W"; //X轴单位
var yname = ["转速RPM"]; //Y轴1单位,Y轴2单位(如果有的话)
var leftside = "8%"; //左边空白
var yax = 0; //是否双Y轴
var yminmax = [0, 2100]; //Y轴最小值最大值,默认全0为自动,全1为自动以最小值数据最小值
var fill = 0; //0-1表示填充透明度
var sn = 10; //坐标轴分割为多少段
var mp = 1; //是否显示最大最小值 0为不显示
var symbolsize = 6; //数据点的大小,0为不显示
var autocolor = 0; //是否自动颜色
var colors = ['#32cd32', '#FF8C00'];
var data_arr = [["输出功率(W)","AUTO"],["50","0 "],["100","0 "],["150","0 "],["200","0 "],["250","0 "],["300","0 "],["350","0 "],["400","0 "],["450","0 "],["500","0 "],["550","0 "],["600","1216 "],["650","1257"],["700","1309"],["750","1357"],["800","1359"],["850","1362"],["900","1391"],["950","1418"],["1000","1483"],["1050","1523"],["1100","1583"],["1150","1653"],["1200","1694"],["1250","1741"],["1300","1784"],["1350","1824"],["1400","1871"],["1450","1904"],["1500","1973"],["1550","2005"],["1600","2061"]];
ZHXInit(title_text, subtitle_text, xname, yname, leftside, yax, fill, sn, colors, data_arr, mp, autocolor, yminmax, symbolsize);当然想在高端PC电源市场中站稳脚跟,电气性能表现只是基础,想让消费者留下深刻印象,产品自身必须带点“绝活”。而酷冷至尊 V PLATINUM 1600 V2的特色在于它的高性能超低噪的莫比乌斯风扇。这款风扇采用了创新性的环形扇叶设计,搭配回油轴承系统以及迷宫式防尘结构,电源满载输出时噪音也仅约为30DBA,给用户提供安静其且稳定的电源使用体验。
酷冷至尊 V PLATINUM 1600 V2电源得分及点评酷冷至尊 V PLATINUM 1600 V2售价为2299元,目前1600W功率的ATX 3.1电源产品不多,而且对比竞品这款产品的价格不算贵。产品力表现方面,该电源的电气性能在ATX 3.1测试中表现优秀,超能指数为93.79,但是在常规性能方面,受到电压稳定性的影响,其超能指数为84.63分,虽然这方面的评分表现中规中矩,但日常使用绝对可以满足普通消费者需求。至于产品特色方面,这款电源的噪音控制优秀,而且1600W的额定功率目前完全可以满足高性能CPU和显卡的功率需求。
预览var tableid = settableid();
document.write('');
Table().init({
title: "酷冷至尊V PLATINUM 1600 V2电源评分",
header: ["项目","电压稳定(30分)","转换效率(35分)","满载纹波(15分)","交叉负载(15分)","保持时间(5分)","超能指数"],
width: '91%',
id: tableid,
data: [["得分","24.41","31.24","12.85","11.63","4.50","84.63"]]});预览var tableid = settableid();
document.write('');
Table().init({
title: "酷冷至尊V PLATINUM 1600 V2电源 | ATX 3性能指数",
header: ["项目","空载电压(10分)","动态负载电压(30分)","动态超载电压(25分)","2%转换效率(15分)","100%负载保持时间(8分)","时序T1-T4(12分)","超能指数"],
width: '91%',
id: tableid,
data: [["得分","10.00 ","30.00 ","25.00 ","8.94","7.85","12.00 ","93.79"]]});预览PowerInit("酷冷至尊 V PLATINUM 1600 V2");总结而言酷冷至尊 V PLATINUM 1600 V2在一众大功率电源产品中性价比表现较为优秀,在外观设计及静音性等方面也表现出一个高端产品应有的水平,而作为设计理念是“次世代”电源的产品,其ATX 3.1测试也有良好的性能表现,配合12年质保服务,这款产品就非常适合希望买一款电源来“战未来”的用户群体。
√ 优点:
- 80Plus铂金认证
- 12年质保- 输出纹波低- 保持时间余量充足- 符合ATX 3.1规格要求
X 缺点:
- +3.3V电压调整率略高