目录
产品概述 返回TOPdQg嘉泰姆
The CXCO4305 is a dual low power comparator with a typical power supply current of 300nA (per channel). It has the best-in-class power supply current versus propagation delay performance. The propagation delay is as low as 6μs with 100mV overdrive at 1.4V supply.dQg嘉泰姆
Designed to operate over a wide range of supply voltages, from 1.4V to 5.5V, with guaranteed operation at 1.4V, 2.5V and 5.0V, the CXCO4305 is ideal for use in a variety of battery-powered applications. With rail-to-rail common mode voltage range, the CXCO4305 is well suited for single-supply operation. Its small packages make this device ideal for use in handheld electronics and mobile phone applications.dQg嘉泰姆
Featuring a push-pull output stage, the CXCO4305 allows for operation with absolute minimum power consumption when driving any capacitive or resistive load.dQg嘉泰姆
CXCO4305 is available in Green SOIC-8 and MSOP-8 packages. It is rated over the -40℃</span> to +85℃</span> temperature range.dQg嘉泰姆
产品特点 返回TOPdQg嘉泰姆
• Ultra Low Power Consumption:
300nA/Channel (TYP) at VS = 1.4V
• Wide Supply Voltage Range: 1.4V to 5.5V
• Propagation Delay: 6μs (TYP) at VS = 1.4V
• Push-Pull Output Current Drive:
19mA (TYP) at VS = 5V
• Rail-to-Rail Input
• -40℃</span> to +85℃</span> Operating Temperature Range
• Available in Green SOIC-8 and MSOP-8 PackagesdQg嘉泰姆
应用范围 返回TOPdQg嘉泰姆
RC Timers
Window Detectors
IR Receiver
Multivibrators
Alarm and Monitoring CircuitsdQg嘉泰姆
技术规格书(产品PDF) 返回TOP dQg嘉泰姆
需要详细的PDF规格书请扫一扫微信联系我们,还可以获得免费样品以及技术支持</span>!</span>
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产品封装图 返回TOPdQg嘉泰姆
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电路原理图 返回TOPdQg嘉泰姆
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微功耗比较器dQg嘉泰姆 |
Part No.dQg嘉泰姆 | CHdQg嘉泰姆 | Latch EnabledQg嘉泰姆 | VCCdQg嘉泰姆 (Min)dQg嘉泰姆 | VCCdQg嘉泰姆 (Max)dQg嘉泰姆 | VOSdQg嘉泰姆 (mV)dQg嘉泰姆 | Iq/CH dQg嘉泰姆 (μA)dQg嘉泰姆 | Propagation dQg嘉泰姆 Delay dQg嘉泰姆 (L to H) dQg嘉泰姆 | PropagadQg嘉泰姆 tion DelaydQg嘉泰姆 (H to L) dQg嘉泰姆 | tRise dQg嘉泰姆 (ns)dQg嘉泰姆 | tFall dQg嘉泰姆 (ns)dQg嘉泰姆 | Output TypedQg嘉泰姆 | PackagedQg嘉泰姆 |
CXCO4301dQg嘉泰姆 | 1dQg嘉泰姆 | NdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 | 33μsdQg嘉泰姆 | 6μsdQg嘉泰姆 | 85dQg嘉泰姆 | 60dQg嘉泰姆 | Push-PulldQg嘉泰姆 | SOT23-5 SC70-5dQg嘉泰姆 |
CXCO4302dQg嘉泰姆 | 1dQg嘉泰姆 | NdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 | 33μsdQg嘉泰姆 | 6μsdQg嘉泰姆 | 85dQg嘉泰姆 | NAdQg嘉泰姆 | Open-Drain(PFET)dQg嘉泰姆 | SOT23-5 SC70-5dQg嘉泰姆 |
CXCO4303dQg嘉泰姆 | 1dQg嘉泰姆 | YdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 | 33μsdQg嘉泰姆 | 6μsdQg嘉泰姆 | 85dQg嘉泰姆 | 60dQg嘉泰姆 | Push-PulldQg嘉泰姆 | SOT23-6dQg嘉泰姆 |
CXCO4304dQg嘉泰姆 | 1dQg嘉泰姆 | YdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 | 33μsdQg嘉泰姆 | 6μsdQg嘉泰姆 | 85dQg嘉泰姆 | 60dQg嘉泰姆 | Push-Pull&InvertdQg嘉泰姆 | SOIC-8 MSOP-8dQg嘉泰姆 |
CXCO4305dQg嘉泰姆 | 2dQg嘉泰姆 | NdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 | 33μsdQg嘉泰姆 | 6μsdQg嘉泰姆 | 85dQg嘉泰姆 | 60dQg嘉泰姆 | Push-PulldQg嘉泰姆 | SOIC-8 MSOP-8dQg嘉泰姆 |
CXCO4306dQg嘉泰姆 | 1dQg嘉泰姆 | YdQg嘉泰姆 | 1.8dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 2300dQg嘉泰姆 | 30μsdQg嘉泰姆 | 5.6μsdQg嘉泰姆 | 40dQg嘉泰姆 | 30dQg嘉泰姆 | Push-PulldQg嘉泰姆 | SOIC-8 SOT23-8dQg嘉泰姆 SOT-23-6dQg嘉泰姆 |
CXCO4307dQg嘉泰姆 | 1dQg嘉泰姆 | NdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 | 33μsdQg嘉泰姆 | 6μsdQg嘉泰姆 | 85dQg嘉泰姆 | 60dQg嘉泰姆 | Push-PulldQg嘉泰姆 | SOT23-5 SC70-5dQg嘉泰姆 |
CXCO4308dQg嘉泰姆 | 1dQg嘉泰姆 | YdQg嘉泰姆 | 1.8dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 2300dQg嘉泰姆 | 30μsdQg嘉泰姆 | 5.6μsdQg嘉泰姆 | 40dQg嘉泰姆 | 30dQg嘉泰姆 | Push-Pull&InvertdQg嘉泰姆 | SOT23-8 SOIC-8dQg嘉泰姆 |
CXCO4309dQg嘉泰姆 | 1dQg嘉泰姆 | NdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 |
| 5μsdQg嘉泰姆 | NAdQg嘉泰姆 | 36dQg嘉泰姆 | Open-Drain(NFET)dQg嘉泰姆 | SOT23-5 SC70-5dQg嘉泰姆 |
CXCO4310dQg嘉泰姆 | 1dQg嘉泰姆 | YdQg嘉泰姆 | 1.8dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 2300dQg嘉泰姆 |
| 5.6μsdQg嘉泰姆 | NAdQg嘉泰姆 | 30dQg嘉泰姆 | Open-Drain(NFET)dQg嘉泰姆 | SOT23-8 SOT23-6dQg嘉泰姆 |
CXCO4311dQg嘉泰姆 | 1dQg嘉泰姆 | NdQg嘉泰姆 | 1.8dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 2300dQg嘉泰姆 | 30μsdQg嘉泰姆 | 5.6μsdQg嘉泰姆 | 40dQg嘉泰姆 | 30dQg嘉泰姆 | Push-PulldQg嘉泰姆 | UTDFN-1.6x1.6-6LdQg嘉泰姆 |
CXCO4312dQg嘉泰姆 | 2dQg嘉泰姆 | NdQg嘉泰姆 | 1.4dQg嘉泰姆 | 5.5dQg嘉泰姆 | 3dQg嘉泰姆 | 350dQg嘉泰姆 | 33μsdQg嘉泰姆 | 6μsdQg嘉泰姆 | 85dQg嘉泰姆 | 60dQg嘉泰姆 | Push-PulldQg嘉泰姆 | MSOP-8dQg嘉泰姆 |
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