谷歌计划手机使用窄带卫星SG5032VAN爱普生LVDS差分晶振X1G004261003300
目前谷歌公司很可能会先将这款手机的潜在客户群体锁定在诸如执法机构、各行业翘楚、律师等精英团体,并在随后逐渐向拥有一定购买能力的人群推广.
用户要承担的额外费用实际上使用全新窄带卫星连接配置的费用对于用户而言并不便宜,爱普生晶振而且他们很可能不得不为这项技术去支付上一笔费用.因此,这款手机的用户对于费用的上涨应该做好心理准备.不过,考虑到谷歌所描绘的各种可能会对用户通信造成不便的场景,例如在偏远地区、发生灾难等,为使用这项技术而多支付一笔美元似乎也是不错的选择.
SG5032VAN爱普生LVDS差分晶振X1G004261003300,谷歌手机使用窄带卫星晶振
爱普生有源晶振编码
型号
频率
长X宽X高
输出波
电源电压
工作温度
频差
最大值
X1G004251012800
SG3225EAN
156.253906MHz
3.20x2.50x1.20mm
LV-PECL
2.250to3.630V
-40to85°C
+/-30ppm
≤65.0mA
X1G004251013100
SG3225EAN
360.500000MHz
3.20x2.50x1.20mm
LV-PECL
2.250to3.630V
-20to70°C
+/-50ppm
≤65.0mA
X1G004251013200
SG3225EAN
644.531200MHz
3.20x2.50x1.20mm
LV-PECL
2.250to3.630V
-40to85°C
+/-50ppm
≤65.0mA
X1G004251013800
SG3225EAN
644.531250MHz
3.20x2.50x1.20mm
LV-PECL
2.250to3.630V
-40to85°C
+/-50ppm
≤65.0mA
X1G004251013900
SG3225EAN
121.500000MHz
3.20x2.50x1.20mm
LV-PECL
2.250to3.630V
-40to85°C
+/-30ppm
≤65.0mA
X1G004251014000
SG3225EAN
650.000000MHz
3.20x2.50x1.20mm
LV-PECL
2.250to3.630V
-40to85°C
+/-30ppm
≤65.0mA
X1G004261000100
SG5032VAN
100.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-50ppm
≤30.0mA
X1G004261000200
SG5032VAN
125.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-50ppm
≤30.0mA
X1G004261000500
SG5032VAN
200.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-50ppm
≤30.0mA
X1G004261000600
SG5032VAN
156.250000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-50ppm
≤30.0mA
X1G004261001100
SG5032VAN
148.500000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-50ppm
≤30.0mA
X1G004261001300
SG5032VAN
150.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-50ppm
≤30.0mA
X1G004261001400
SG5032VAN
155.520000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-50ppm
≤30.0mA
X1G004261002000
SG5032VAN
125.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261002100
SG5032VAN
125.006250MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261002300
SG5032VAN
100.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261002400
SG5032VAN
200.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261002500
SG5032VAN
400.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261002900
SG5032VAN
148.500000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261003100
SG5032VAN
150.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261003300
SG5032VAN
156.250000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261003400
SG5032VAN
312.500000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-40to85°C
+/-30ppm
≤30.0mA
X1G004261004300
SG5032VAN
200.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-20to70°C
+/-50ppm
≤30.0mA
X1G004261006200
SG5032VAN
200.000000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-20to70°C
+/-20ppm
≤30.0mA
X1G004261006700
SG5032VAN
148.500000MHz
5.00x3.20x1.20mm
LVDS
2.250to3.630V
-20to70°C
+/-20ppm
≤30.0mA
而谷歌举出的另一个实例,也许对人们而言更具有实际的意义,那就是在发生自然灾害时可以使用到这种技术.众所周知自然灾害会对所有的蜂窝基站造成破坏,即使是位于市中心的通信设施也是如此.而值得庆幸的是,谷歌已经将这一情景纳入了考量.
谷歌的未来计划目前无法确定谷歌将会如何使用这一专利技术.日本晶振在上述已对外公开的申请中,谷歌只是描绘出了这种窄带卫星系统可能会派上用场的若干场景.例如当汽车在路边抛锚时,由于该地并没有被蜂窝网络覆盖,因此司机无法对外呼叫路边救援服务,也就是说这名身处险境的旅行者也许无法利用偏远地区的蜂窝数据服务来获得紧急救援服务.SG5032VAN爱普生LVDS差分晶振X1G004261003300,谷歌手机使用窄带卫星晶振
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