1 00:00:00,160 --> 00:00:03,919 如果您乘坐 Express LRS 飞行,您 2 00:00:02,159 --> 00:00:06,000 很容易认为 3 00:00:03,919 --> 00:00:09,040 故障保护并不是您必须 4 00:00:06,000 --> 00:00:11,519 担心的事情,Express LRS 非常擅长 5 00:00:09,040 --> 00:00:13,360 提供远距离,且故障保护风险很小, 6 00:00:11,519 --> 00:00:15,360 7 00:00:13,360 --> 00:00:17,760 但是您如何知道您的天线是否 8 00:00:15,360 --> 00:00:19,199 已损坏 损坏, 9 00:00:17,760 --> 00:00:21,039 特别是如果您有那些 10 00:00:19,199 --> 00:00:23,039 小陶瓷天线之一,就像您 11 00:00:21,039 --> 00:00:24,640 有一根线天线, 12 00:00:23,039 --> 00:00:26,240 如果它被螺旋桨或 13 00:00:24,640 --> 00:00:28,080 其他东西切碎,那么很明显,但如果您有那些小 14 00:00:26,240 --> 00:00:29,920 陶瓷天线,它们可能会在 15 00:00:28,080 --> 00:00:31,760 崩溃,您可能并不真正清楚地 16 00:00:29,920 --> 00:00:33,360 知道它发生 17 00:00:31,760 --> 00:00:36,079 在这个视频中,我们将讨论 18 00:00:33,360 --> 00:00:38,559 一种测试您的快速远程接收 19 00:00:36,079 --> 00:00:40,399 天线是否大致正常工作的方法, 20 00:00:38,559 --> 00:00:43,200 然后我们将讨论如何 21 00:00:40,399 --> 00:00:45,360 设置 dbm 和 lq 阈值, 22 00:00:43,200 --> 00:00:46,960 您应该考虑是否 23 00:00:45,360 --> 00:00:49,039 需要掉头或面临自动 24 00:00:46,960 --> 00:00:52,260 防故障的风险,我是约书亚·巴德韦尔, 25 00:00:49,039 --> 00:00:58,719 今天您将学习一些东西 26 00:00:52,260 --> 00:01:00,879 [音乐],然后 27 00:00:58,719 --> 00:01:02,800 我们带着这个小东西一起飞翔 28 00:01:00,879 --> 00:01:04,799 我们要对接收器进行健全性 29 00:01:02,800 --> 00:01:07,360 检查,确保它获得了 30 00:01:04,799 --> 00:01:09,520 预期的信号强度。 31 00:01:07,360 --> 00:01:11,200 我听到一些 32 00:01:09,520 --> 00:01:13,840 人在 Express Alaris 33 00:01:11,200 --> 00:01:17,360 Discord 上的报告,有时这些微小的 34 00:01:13,840 --> 00:01:19,040 陶瓷天线会损坏, 35 00:01:17,360 --> 00:01:20,479 是否是这样? 从工厂或者 36 00:01:19,040 --> 00:01:21,840 你是否正在驾驶它们并 37 00:01:20,479 --> 00:01:22,880 撞击它们并且它们被 38 00:01:21,840 --> 00:01:24,240 损坏了它们 39 00:01:22,880 --> 00:01:27,360 并不总是很明显它们 40 00:01:24,240 --> 00:01:29,280 被损坏了所以你可以做一个健全性检查 41 00:01:27,360 --> 00:01:32,479 42 00:01:29,280 --> 00:01:32,479 我要给小队插上电源 43 00:01:32,880 --> 00:01:37,680 然后 在收音机上,我们 44 00:01:34,640 --> 00:01:39,360 将按模型键或菜单键( 45 00:01:37,680 --> 00:01:41,280 如果您有免费的天空收音机),我们将 46 00:01:39,360 --> 00:01:43,439 进入模型设置屏幕,我们将 47 00:01:41,280 --> 00:01:45,840 寻呼至遥测 48 00:01:43,439 --> 00:01:47,200 屏幕,然后我们将进入 如果您 49 00:01:45,840 --> 00:01:49,360 以前从未这样做过,那么您需要下去 50 00:01:47,200 --> 00:01:51,280 发现新的传感器,您应该 51 00:01:49,360 --> 00:01:53,920 看到一大堆遥测传感器 52 00:01:51,280 --> 00:01:55,920 来自您的 Express LRS 接收器, 53 00:01:53,920 --> 00:01:58,560 我们想要查看的是一个 54 00:01:55,920 --> 00:02:01,600 RSS 传感器和 这是 55 00:01:58,560 --> 00:02:02,799 从接收器接收到的信号强度 56 00:02:01,600 --> 00:02:04,320 然后我们要做的是我们 57 00:02:02,799 --> 00:02:06,159 要退出 我要 58 00:02:04,320 --> 00:02:08,080 长按 cis 键 59 00:02:06,159 --> 00:02:09,920 进入工具菜单或在 freesky 60 00:02:08,080 --> 00:02:12,000 收音机上我相信你很长 按下菜单 61 00:02:09,920 --> 00:02:13,520 键 62 00:02:12,000 --> 00:02:15,040 对此非常确定,但是 63 00:02:13,520 --> 00:02:16,640 自从我拥有一台 freesky 收音机作为我的 64 00:02:15,040 --> 00:02:18,239 日常驱动程序以来已经很长一段时间了,我们将进入 65 00:02:16,640 --> 00:02:19,920 Express lrs lua 脚本, 66 00:02:18,239 --> 00:02:22,480 大概您已经安装了该脚本,我们将把 67 00:02:19,920 --> 00:02:24,640 功率设置为 10 毫瓦 68 00:02:22,480 --> 00:02:27,599 您想要看到的是, 69 00:02:24,640 --> 00:02:31,599 70 00:02:27,599 --> 00:02:34,080 71 00:02:31,599 --> 00:02:37,840 当四轴飞行器 72 00:02:34,080 --> 00:02:38,879 和收音机彼此相距约一米时,一个 RSS 传感器的值约为负 30 到负 35 db 73 00:02:37,840 --> 00:02:41,519 74 00:02:38,879 --> 00:02:44,080 ,在我的情况下,我得到的值 75 00:02:41,519 --> 00:02:46,319 接近负值 60 db 让我们记住 76 00:02:44,080 --> 00:02:49,519 这是一个负数,所以负 35 77 00:02:46,319 --> 00:02:52,160 比负 60 更好。 78 00:02:49,519 --> 00:02:54,720 根据 alessandro 的说法, 79 00:02:52,160 --> 00:02:57,360 至少领先的 Express lrs dev 可能 80 00:02:54,720 --> 00:02:59,360 表明我的 81 00:02:57,360 --> 00:03:01,120 接收器上的天线坏了,所以让我们继续 82 00:02:59,360 --> 00:03:02,800 我要更换这个接收器, 83 00:03:01,120 --> 00:03:04,239 我要看看情况是否会好转, 84 00:03:02,800 --> 00:03:06,159 我刚刚焊接了第二个 85 00:03:04,239 --> 00:03:08,239 接收器,我得到了 86 00:03:06,159 --> 00:03:10,480 几乎完全相同的结果嘿, 87 00:03:08,239 --> 00:03:12,080 来自未来的朋友约书亚在这里呃我测试了所有 88 00:03:10,480 --> 00:03:13,519 我的三个接收器,它们都给出了与 89 00:03:12,080 --> 00:03:16,159 您在这里看到的基本相同的数字, 90 00:03:13,519 --> 00:03:17,840 当它们相距几英寸时,大约为负 45 dBm;当 91 00:03:16,159 --> 00:03:20,400 92 00:03:17,840 --> 00:03:22,480 距离大约一米时,大约为负 60 到负 65。 93 00:03:20,400 --> 00:03:24,000 您看到的确切数字 94 00:03:22,480 --> 00:03:26,080 取决于接收器的方向 95 00:03:24,000 --> 00:03:28,080 天线和定位,但这就是 96 00:03:26,080 --> 00:03:29,519 我得到的结果,我从 97 00:03:28,080 --> 00:03:32,080 网上其他人那里得到了类似的 98 00:03:29,519 --> 00:03:34,720 结果,亚历山德罗 99 00:03:32,080 --> 00:03:36,400 在一米距离处的负 35 的结果可能是一个 100 00:03:34,720 --> 00:03:38,720 异常值,我不知道,但如果你的情况 101 00:03:36,400 --> 00:03:41,519 变得明显更糟 比方 102 00:03:38,720 --> 00:03:43,760 说,在 103 00:03:41,519 --> 00:03:45,760 10 毫瓦、距离约一米的地方,负 60 到 65 那么 104 00:03:43,760 --> 00:03:46,799 你的天线可能有问题, 105 00:03:45,760 --> 00:03:48,879 你要做的另一件事 106 00:03:46,799 --> 00:03:50,640 就是 107 00:03:48,879 --> 00:03:53,599 进入你的 108 00:03:50,640 --> 00:03:53,599 express lrs 109 00:03:55,360 --> 00:04:01,040 lua脚本并为你的 数据包速率, 110 00:03:58,159 --> 00:04:03,599 在我的例子中是 250 赫兹, 111 00:04:01,040 --> 00:04:05,840 将会有一个 dbm 阈值,这是 112 00:04:03,599 --> 00:04:07,439 信号太弱的故障安全阈值, 113 00:04:05,840 --> 00:04:08,560 114 00:04:07,439 --> 00:04:10,400 您要做的就是 115 00:04:08,560 --> 00:04:12,159 连接到您的 116 00:04:10,400 --> 00:04:14,480 飞行控制器, 117 00:04:12,159 --> 00:04:17,799 在 osd 选项卡中 118 00:04:14,480 --> 00:04:21,280 我们 需要设置 rssi dbm,因此我们希望 119 00:04:17,799 --> 00:04:23,759 rssidbm 在屏幕中可见,在 120 00:04:21,280 --> 00:04:26,880 osd 选项卡中,我们将 121 00:04:23,759 --> 00:04:29,120 确保 rssi dbm 122 00:04:26,880 --> 00:04:30,639 已打开 123 00:04:29,120 --> 00:04:33,680 ,这将为我们提供 124 00:04:30,639 --> 00:04:34,639 rssi 的实际分贝值 把我 125 00:04:33,680 --> 00:04:36,400 不知道你把它放在哪里,无论 126 00:04:34,639 --> 00:04:38,080 你喜欢什么, 127 00:04:36,400 --> 00:04:40,160 128 00:04:38,080 --> 00:04:44,639 我们要做的另一件事我们会保存,我们将 129 00:04:40,160 --> 00:04:45,759 进入cli set osd rssi 130 00:04:44,639 --> 00:04:48,000 dbm 131 00:04:45,759 --> 00:04:49,520 Alarm equals, 132 00:04:48,000 --> 00:04:52,000 我们将 133 00:04:49,520 --> 00:04:54,080 在这种情况下,采用这个阈值,它是负 108 dBm, 134 00:04:52,000 --> 00:04:56,479 我们将添加 10,以便从 135 00:04:54,080 --> 00:04:57,919 负 108 到负 98, 136 00:04:56,479 --> 00:05:02,320 我们将把阈 137 00:04:57,919 --> 00:05:05,440 值设置为负 98,现在 138 00:05:02,320 --> 00:05:08,160 这似乎已经起作用了 139 00:05:05,440 --> 00:05:09,840 ,我们将 保存下来,让我们 140 00:05:08,160 --> 00:05:12,400 看看我们要做的另一件事是 141 00:05:09,840 --> 00:05:14,880 的,让我们这样做,让我们 142 00:05:12,400 --> 00:05:16,960 关闭 rssi 警告并打开 143 00:05:14,880 --> 00:05:19,440 rssi dbm 警告,其原因是 144 00:05:16,960 --> 00:05:22,240 rssi 值没有经过 145 00:05:19,440 --> 00:05:24,800 校准来表达 lrs 的特定值 146 00:05:22,240 --> 00:05:27,600 需要,事实上 RSSI 百分比 147 00:05:24,800 --> 00:05:29,840 甚至不是一个真正有意义的东西 RSSI DBM 148 00:05:27,600 --> 00:05:30,880 是一个实际的类似数字, 149 00:05:29,840 --> 00:05:31,840 150 00:05:30,880 --> 00:05:33,039 所以 151 00:05:31,840 --> 00:05:34,960 我们 152 00:05:33,039 --> 00:05:37,440 不要担心 RSSI 百分比,我们会 153 00:05:34,960 --> 00:05:39,680 担心 RSSI DBM 接下来 154 00:05:37,440 --> 00:05:41,120 我们要解决的问题是链接质量或 155 00:05:39,680 --> 00:05:43,600 lq lq阈 156 00:05:41,120 --> 00:05:45,199 值是多少,在该阈值下你 157 00:05:43,600 --> 00:05:46,639 有保存失败的风险,你需要 158 00:05:45,199 --> 00:05:47,600 考虑转身回家 159 00:05:46,639 --> 00:05:50,160 160 00:05:47,600 --> 00:05:52,800 交叉火力给出了一个具体数字, 161 00:05:50,160 --> 00:05:55,039 如果你处于模式一,lq 162 00:05:52,800 --> 00:05:56,800 约为70到80,我们交叉火力 他们说你需要 163 00:05:55,039 --> 00:06:00,160 考虑扭转局面,而 164 00:05:56,800 --> 00:06:02,120 express lrs开发人员明确避免 165 00:06:00,160 --> 00:06:04,080 提出 166 00:06:02,120 --> 00:06:06,720 这样的建议,那 167 00:06:04,080 --> 00:06:10,720 是因为lq的工作方式 168 00:06:06,720 --> 00:06:14,240 是lq是对 169 00:06:10,720 --> 00:06:17,280 数据流中丢失数据包的百分比的估计, 170 00:06:14,240 --> 00:06:19,199 因此模块发送数据包 对于 171 00:06:17,280 --> 00:06:21,440 接收器,数据包包含您 172 00:06:19,199 --> 00:06:23,840 在该时间点的频道位置 173 00:06:21,440 --> 00:06:26,000 ,如果存在干扰或 RSSI 较低, 174 00:06:23,840 --> 00:06:28,479 则某些数据包无法到达那里, 175 00:06:26,000 --> 00:06:30,240 因此如果您的 lq 为 90,则意味着您有 176 00:06:28,479 --> 00:06:32,560 10 个数据包 177 00:06:30,240 --> 00:06:34,720 丢失,并且 90 正在通过, 178 00:06:32,560 --> 00:06:35,919 当然,lq 越低,丢失的东西就越多,因为 179 00:06:34,720 --> 00:06:37,600 180 00:06:35,919 --> 00:06:40,560 181 00:06:37,600 --> 00:06:42,880 没有固定的 lq 值,此时 182 00:06:40,560 --> 00:06:45,360 您的链路故障保存的 183 00:06:42,880 --> 00:06:47,680 丢失数据包越多, 184 00:06:45,360 --> 00:06:49,199 您获得的微故障保险就越多, 185 00:06:47,680 --> 00:06:51,120 难度也越大 控制你的 186 00:06:49,199 --> 00:06:52,720 飞机,但是如果你和像 Wesley Vardy 这样的人交谈, 187 00:06:51,120 --> 00:06:55,919 188 00:06:52,720 --> 00:06:59,199 他用 Express LRS 进行远程测试,他 189 00:06:55,919 --> 00:07:02,479 谈到过以 7 左右的 LQ 飞行呃他的机翼, 190 00:06:59,199 --> 00:07:04,800 191 00:07:02,479 --> 00:07:06,479 但只有 7% 的数据包 192 00:07:04,800 --> 00:07:09,039 通过了,但是因为 193 00:07:06,479 --> 00:07:10,560 飞机基本上是使用 inav 自主飞行, 194 00:07:09,039 --> 00:07:12,000 195 00:07:10,560 --> 00:07:14,000 他实际上不需要进行大量 196 00:07:12,000 --> 00:07:17,120 输入,并且链接保持打开状态,他 197 00:07:14,000 --> 00:07:19,120 能够将其带回家,因此没有 lq 198 00:07:17,120 --> 00:07:20,800 阈值,您可以说 199 00:07:19,120 --> 00:07:23,520 您即将感觉到 安全, 200 00:07:20,800 --> 00:07:26,000 只要您的 RSSI 201 00:07:23,520 --> 00:07:27,840 合理地高于该阈值,您就必须回家,您可能会 202 00:07:26,000 --> 00:07:29,039 继续获取一些数据, 203 00:07:27,840 --> 00:07:31,520 204 00:07:29,039 --> 00:07:33,440 但您的 lq 越低, 205 00:07:31,520 --> 00:07:35,360 您拥有的微型故障保险就越多, 206 00:07:33,440 --> 00:07:36,400 您的四轴就越难控制 207 00:07:35,360 --> 00:07:39,280 坦率地说, 208 00:07:36,400 --> 00:07:41,759 任何时候 lq 都低于 98 209 00:07:39,280 --> 00:07:44,000 %,而 Express LRS 210 00:07:41,759 --> 00:07:45,919 可能会出现问题。 espresso 非常非常擅长 211 00:07:44,000 --> 00:07:48,319 保持 lq 高并保持 212 00:07:45,919 --> 00:07:50,160 高链接,所以我会开始想 213 00:07:48,319 --> 00:07:51,680 知道如果它开始 214 00:07:50,160 --> 00:07:53,120 下降会发生什么情况 无论如何, 215 00:07:51,680 --> 00:07:55,520 但是它对 216 00:07:53,120 --> 00:07:57,520 你来说变得无法飞行的门槛在哪里,这是 217 00:07:55,520 --> 00:07:59,199 只有你可以通过测试弄清楚的东西, 218 00:07:57,520 --> 00:08:00,319 219 00:07:59,199 --> 00:08:02,080 这将把我们带到 220 00:08:00,319 --> 00:08:04,319 这个视频的结尾,我有一大堆 221 00:08:02,080 --> 00:08:06,800 更多关于expresso的express lrs评论的视频 222 00:08:04,319 --> 00:08:08,400 设备设置指南等等, 223 00:08:06,800 --> 00:08:09,919 我将在视频描述中放置一个链接, 224 00:08:08,400 --> 00:08:12,400 指向其中一些我 225 00:08:09,919 --> 00:08:14,960 认为您可能感兴趣的内容, 226 00:08:12,400 --> 00:08:16,160 如果您不喜欢快速LRS,那么我 227 00:08:14,960 --> 00:08:17,440 不确定您为什么观看整个过程 228 00:08:16,160 --> 00:08:19,759 视频一直到最后,但谢谢 229 00:08:17,440 --> 00:08:22,639 你,我的分析爱你 230 00:08:19,759 --> 00:08:24,479 表达律师是惊人的,它的 231 00:08:22,639 --> 00:08:25,599 价格相同,或者比像 freesky 这样的东西更便宜, 232 00:08:24,479 --> 00:08:28,160 233 00:08:25,599 --> 00:08:32,960 它在 234 00:08:28,160 --> 00:08:32,960 范围和延迟方面的性能要好得多,而且 235 00:08:33,039 --> 00:08:36,320 处理起来也同样烦人。 236 00:08:34,959 --> 00:08:38,320 237 00:08:36,320 --> 00:08:39,839 238 00:08:38,320 --> 00:08:41,680 如果你还没有喜欢浓缩咖啡,那么处理固件闪烁等问题就不那么烦人了, 239 00:08:39,839 --> 00:08:42,880 绝对一定要检查一下, 240 00:08:41,680 --> 00:08:44,640 241 00:08:42,880 --> 00:08:46,160 除非你喜欢交火幽灵或 242 00:08:44,640 --> 00:08:47,920 追踪器,在这种情况下,也许你 243 00:08:46,160 --> 00:08:49,200 喜欢那些,无论如何, 244 00:08:47,920 --> 00:08:52,800 那就可以了 对于这个视频, 245 00:08:49,200 --> 00:08:52,800 非常感谢观看《快乐飞行》, 246 00:08:53,200 --> 00:08:58,000 你看到这个宝贝了吗, 247 00:08:55,839 --> 00:09:00,399 他不是很可爱吗? 248 00:08:58,000 --> 00:09:01,920 点击订阅按钮, 249 00:09:00,399 --> 00:09:03,760 加入我的会员, 250 00:09:01,920 --> 00:09:05,680 使用我的会员链接, 251 00:09:03,760 --> 00:09:09,080 或者继续观看 252 00:09:05,680 --> 00:09:09,080 比什么都不订阅的视频, 253 00:09:10,240 --> 00:09:13,880 订阅我的爸爸