在线座谈

热门关键字: 打å°æœº PCI MAC è§¦æ‘¸æ„Ÿåº” 

关于本次座谈

座谈简介

电æºåŠç”µæºç®¡ç†åœ¨å½“今的电å­è®¾å¤‡ä¸­éžå¸¸é‡è¦çš„。一方é¢æ˜¯ç”±äºŽåœ¨æ高性能的基础下,所有电å­è®¾å¤‡ä¸­ä½¿ç”¨çš„硅集æˆç”µè·¯æ­£ä¸æ–­å¢žåŠ , å¦ä¸€æ–¹é¢æ˜¯ç”±äºŽç”µå­è®¾å¤‡ä¸­å¤§é‡æ•°å­—化的结果,需è¦æ›´å¤šé«˜æ€§èƒ½çš„电æºç®¡ç†å™¨ä»¶æ¥æ”¯æŒæ—¥è¶‹å¤æ‚的功能。éšç€ç”µå­è®¾å¤‡åŠŸèƒ½çš„å¤æ‚化,对电æºç®¡ç†é›†æˆç”µè·¯åŠŸèƒ½çš„需求也日益æå‡ï¼Œæ–°ä¸€ä»£çš„电æºç”µè·¯è®¾è®¡å¿…须兼具低功耗ã€ä½Žå™ªéŸ³ã€å°ä½“积ã€ç¨³å®šåº¦é«˜ç­‰ç‰¹ç‚¹ï¼Œä¸ºè®¾è®¡äººå‘˜æ出了困难的挑战。这次在线座谈将é‡ç‚¹æŽ¢è®¨é£žæ€å¡å°”针对电信ã€å·¥ä¸šå’Œä¾¿æºå¼æ¶ˆè´¹ç±»åº”用而推出的电æºç®¡ç†è§£å†³æ–¹æ¡ˆã€‚讲述硬件集æˆå•†è¦è®¾è®¡å‡ºæ»¡è¶³ç³»ç»Ÿéœ€è¦çš„功率架构所é¢ä¸´çš„挑战,并就采用“负载点â€æ–¹æ³•é’ˆå¯¹å¤æ‚系统的好处进行实例讨论。还将æ供深入的电æºç®¡ç†IC产å“简介,包括用于电信与网络通信应用的MC34701/2/3-QUICCSupply系列和热æ’拔控制器MC34652/3ã€å·¥ä¸šç”¨MC34710å¯è°ƒåŒé€šé“转æ¢å™¨ä»¥åŠç”¨äºŽä¾¿æºå¼éŸ³é¢‘和视频应用的MPC18730。

精彩问答

主题: 飞æ€å¡å°”™电æºç®¡ç†è§£å†³æ–¹æ¡ˆ
在线问答:
[问:] 热æ’æ‹”å­å¡çš„设计中,由于底æ¿ç³»ç»Ÿåœ¨å­å¡æ’拔时部分总线ä»ç„¶å¤„于工作状æ€ï¼Œå¯¹äºŽè¿™æ ·çš„热æ’拔设计需è¦æ³¨æ„一些什么?
[答:飞æ€å¡å°”] å­æ¿æ€»çº¿çš„工作电压应该是å­æ¿æ供的, 当您æ’æ‹”å­æ¿æ—¶, 工作电压由MC34652/3æä¾›, 瞬间的涌入电æµç”±å®ƒä»¬æŽ§åˆ¶, ä¸ä¼šæŸåè´Ÿè½½å­æ¿ã€‚
[问:] 飞æ€å¡å°”的电平转æ¢å™¨å¯¹ç”µæºçš„加电顺åºæœ‰ä½•å½±å“? 应如何考虑?
[答:飞æ€å¡å°”] This would not impact your power sequencing unless it yanks down your power lines of either your IO or core voltages. Even if this does happen, the power sequencing if active, will ensure the sequencing is proper. If this does not answer your question, pls enquire with Freescale regional FAE.
[问:] 飞æ€å¡å°”的电æºç®¡ç†ç›¸å¯¹äºŽå…¶ä»–å…¬å¸çš„åŒç±»äº§å“有何ä¸åŒçš„特点和优势?
[答:飞æ€å¡å°”] Freescale solution can provide reduced system level (BOM) cost and can save PCB space saving. Also, some cost competitiveness. Freescale's power saving mode is ideal for handheld powered. This product can improve overall regulation.
[问:] 飞æ€å¡å°”çš„MCU对上电和掉电顺åºå¾ˆæ•æ„Ÿå—?错误的顺åºä¼šå¯¼è‡´ä»€ä¹ˆåŽæžœï¼Ÿ
[答:飞æ€å¡å°”] It depends on which MCU or processor, you need to check with the datasheets. To give you an example, for our PowerQUICC1 2 processors (Power PC) they need power sequencing. For the PowerQUICC3, this does not. The wrong sequencing could mean that the core voltage is undefined when it is receiving valid digital inputs to the processor and this could be a problem.
[问:] LDOæ–¹å¼å’Œå¼€å…³ç”µæºæ–¹å¼åœ¨èŠ¯ç‰‡å†…部的电压å˜æ¢å’ŒåŠŸèƒ½å®žçŽ°ä¸Šæ˜¯å¦‚何划分的?
[答:飞æ€å¡å°”] 对于使用飞æ€å¡å°”的芯片, ä½ å¯ä»¥ä¸ç”¨è¿‡åˆ†å…³æ³¨äºŽæ˜¯SWæ供还是LDOæ供的供电 åªéœ€è¦æ³¨æ„您的负载电æµå’Œä¸åŒçš„输出电压。 SWå’ŒLDO的工作原ç†ä¸åŒ, 很难在这里讲清楚。请å‚考飞æ€å¡å°”本次座谈里的内容或其它著作。在线座谈: http://www.freescale.com.cn/webcast/Analog/PowerManagementSolution.asp
[问:] MC34652最大能承载多大的瞬间电�
[答:飞æ€å¡å°”] MC34652 has a short circuit current limit funtion. Its maximum current is 5A. If the current is greater than 5A (>5A), the power MOSFET is discharged very fast (<10uS) and MC34652 is in overcurrent mode for 3.0mS. Please refer to data sheet page 11~12 overcurrent mode and short circuit mode.
[问:] MC34703能承å—多大的瞬间电æµ?
[答:飞æ€å¡å°”] 19A
[问:] 按照负载点拓扑图方å¼, 在拓扑点, 飞æ€å¡å°”有哪些外围元件最少的电æºç®¡ç†èŠ¯ç‰‡, 比如æä¾›3.3V,1.8V?
[答:飞æ€å¡å°”] 这在线座谈飞æ€å¡å°”介ç»çš„芯片, 和飞æ€å¡å°”的电æºç®¡ç†å™¨ä»¶éƒ½å¯¹å¤–围元件需è¦è¾ƒå°‘。 请å‚考飞æ€å¡å°”的选购指å—获得其它的产å“ä¿¡æ¯ã€‚
[问:] ä¸çŸ¥é“有没有å‡åŽ‹åž‹ã€é™åŽ‹åž‹ä¸€ä½“的开关电æºèŠ¯ç‰‡ï¼Œå…·ä½“åž‹å·æ˜¯ä»€ä¹ˆï¼Ÿ
[答:飞æ€å¡å°”] Freescale provides both buck and boost regulators but are on more sophisticated devices. For example, Freescale's portable 18730 device. For simplier ones, Freescale has not released them yet, stay tunned for this.
[问:] 电æºçš„噪声有多ç§å®šä¹‰å¦‚uVrms, V/rtHz, 还有dBc/Hz, 它们有什么ä¸åŒ? é‚£ç§æœ€èƒ½å映电æºçš„噪音性能?
[答:飞æ€å¡å°”] This is not concerned with the power supply but is relating to it, though not entirely as it depends on noises from your other components. In general, noise is a measure of energy over a frequency range. So you would see this with per Hertz. If you have uV/Hz then it means the voltages of noise for 1 hz. You then multiply this with the bandwidth of interests. dBc is the power level reference to the carrier signal. This is with RF, not the power supply. Vrms is Voltage root mean square value. It is the equivalent dc level of an ac voltage. You need to read up from reference material on this.
[问:] 负载点是怎么划分的?
[答:飞æ€å¡å°”] 1st you need to know your power budget requirement and then the load requirements of each point in your system that you want to power. This would depends on the ripple voltage, line, load requlations, power output etc. Once you have the characteristics of the load then you pick your power supply that can cater for this requirement. If you go to Freescale power management solution webcast, an example is given of a 3G system. Also a design example is given for a specific load requirements. Webcast replay: http://www.freescale.com.cn/webcast/Analog/PowerManagementSolution.asp
[问:] 开关电æºå’ŒLDO有什么区别?
[答:飞æ€å¡å°”] 简å•çš„说,开关电æºæ˜¯é€šè¿‡PWM控制的,å¯ä»¥é€šè¿‡ä¸åŒçš„频率和å ç©ºæ¯”æ¥èŽ·å¾—电压。它ä¸æ˜¯è¿žç»­çš„。 LDO是连续输出的,一般åªèƒ½æ供比输入电压低的输出电压。 在飞æ€å¡å°”这次的座谈中,有对开关电æºå’ŒLDO的讨论。
[问:] 开关电æºæˆ–线性电æºçš„输出电压和输入电压相差较大时, 是å¦æ•ˆçŽ‡å°±é™ä½Ž?
[答:飞æ€å¡å°”] For LDO regulator, the answer is Yes. But for switching regulator, the efficiency is not dependent on voltage difference.
[问:] 开关电æºæ¨¡å—的地和线性稳压模å—的地怎么处ç†ä¸ºå¥½ï¼Ÿ
[答:飞æ€å¡å°”] 一般需è¦åœ¨è¾“出端加滤波电容。å¯ä»¥å‚考飞æ€å¡å°”的芯片数æ®æ‰‹å†Œï¼Œå†…部有详细的介ç»ã€‚
[问:] å¯å¦é‡‡ç”¨çž¬æ€ç”µåŽ‹æŠ‘制器æ¥åº”付负载çªé™?
[答:飞æ€å¡å°”] It depends on which device you are talking about from the webcast. Freescale dc-dc convertor is designed to handle transient surges and we do have special devices incorporated to handle high surges like the hotswap controllers. But if you were to add in an external suppressor, you need to be concerned with the response time and whether this will deprive the power to your load. Pls consult with Freescale local FAE if you need help.
[问:] 我们现在è¦å®žçŽ°ä¸€ä¸ªç³»ç»Ÿ, 由于历å²çš„原因, 需è¦3V, 1.8V, 5V, 3.3V, 2.5V的电æºæ”¯æŒ, 请问飞æ€å¡å°”有没有一个芯片解决这个问题的方案? 如此å¤æ‚的系统, 在布线方é¢æœ‰ä»€ä¹ˆæŠ€å·§å—?
[答:飞æ€å¡å°”] 您å¯ä»¥æ ¹æ®æ‚¨çš„ä¸åŒå·¥ä½œç”µåŽ‹ï¼Œåœ¨ä¸åŒçš„ä½ç½®ï¼Œå¯ä»¥è€ƒè™‘使用飞æ€å¡å°”的电æºèŠ¯ç‰‡ã€‚飞æ€å¡å°”ä¸ä»…ä»…æ供本次座谈中æåŠçš„MC34701/2/3,飞æ€å¡å°”还有其它的LDO和开关型电æºèŠ¯ç‰‡ã€‚请访问飞æ€å¡å°”的网页 http://www.freescale.com.cn/Products/analog.asp 或和当地的飞æ€å¡å°”,代ç†å•†è”系获得帮助。飞æ€å¡å°”代ç†å•†è”ç³»ä¿¡æ¯ (按地区检索或按å录查询): http://www.freescale.com.cn/others/wheretobuy/
[问:] 我想了解一下飞æ€å¡å°”çš„ldo的最低压差是在多少?
[答:飞æ€å¡å°”] 50mv.
[问:] 飞æ€å¡å°”有没有控制下电时åºçš„方案?
[答:飞æ€å¡å°”] Freescale QUICCSupply can provide both power up and down sequencing, whether standard or inverted. You just need to program or select this sequence using 2 enable pins provided by the device. For the actual specification pls go to Freescale website and download the datasheet for this.
[问:] a. POL电æºä¸»è¦åº”用于何ç§åœºåˆ? b. 使用POL电æºåº”注æ„那些问题?
[答:飞æ€å¡å°”] Just to clarify, POL is Point of load and is a method of power management. It is not a power Supply. POL can be applied to any systems whether it is complex or simple. In fact the more complicated your system power is, the better this scheme would benefit you. You will have better EMC, better regulation, transient response and less IR losses. When using POL, you need to pay attention to the total loading that each PoL will have on your main power, or your Brick supply.
[问:] 我在åšç¡¬ä»¶è®¾è®¡çš„时候,ç»å¸¸é‡åˆ°å…³äºŽç”µæºçš„问题是:功率和纹波系数的问题?请问,现在技术在这两方é¢æœ‰ä»€ä¹ˆæ–°çš„çªç ´æ²¡æœ‰ï¼Ÿ å¦å¤–, 如果工作温度从-50度至150时,è¦æ±‚电æºä»æœ‰ä¼˜è‰¯çš„稳定性和精度,现在国际比较领先的在这方é¢èƒ½åšåˆ°ä»€ä¹ˆç¨‹åº¦ï¼Ÿ
[答:飞æ€å¡å°”] Most of our devices are for temp range -40 to 85degrees. If you want outside this range then you need to consult with Freescale sales office to help. It seems you are searching for automotive grade supplies. Freescale group is with Industrial and consumer grade. For your 1st question, we have very high power efficiency using Pusle skip mode in our 18730 device for a wide load range. But for Freescale other devices that do not require this, Freescale has not incorporated this. For ripple factor on the input or output, you need to consider both the converter and the board components like the Output cap’s ESR etc.
[问:] 请问ldo é™åŽ‹å·®è°ƒèŠ‚器的主è¦åº”用环境? 它的间断性供电会ä¸ä¼šç»™ç³»ç»Ÿé€ æˆå½±å“,比如说噪声什么的?
[答:飞æ€å¡å°”] LDO provides stable and low-noise output voltage source, but poor efficiency. So LDO is suitable for no power-saving concern application.
[问:] 请问为何有些处ç†å™¨æ²¡æœ‰ä¸Šç”µé¡ºåºçš„问题呢? 上点顺åºæ˜¯å¦å¯ä»¥åœ¨å¤„ç†å™¨è®¾è®¡ä¸Šäºˆä»¥è§£å†³å‘¢?
[答:飞æ€å¡å°”] There are many reasons. Some are not concerned with the undefined core voltages because they have some initialization state within the processor, while others may have their own power sequencing built in. To solve this, you can use Freescale chip by direct plug in, and no need to concern with this aspect. Or you need to stick in 2 diodes with appropriate power rating to solve this.
[问:] 如何解决上电顺åºå’ŒEMC考虑,å¦å¤–在电æºåŠŸè€—上是怎样解决的?
[答:飞æ€å¡å°”] For Power Sequencing, there are several ways: 1st can use our chip and it will do the job for you but you must makesure that this power sequencing is compliant to your processor. Freescale is for the PowerQUICC processor and should be good for many others. The other way is to use external components like 2 diodes. For EMC, this is more complicated, you need to have good isolation and guarding between your switching signals and how power signals away from your more sensitive nodes (inputs and outputs). Power consumption would depend on the type or power supply topology that you are using. A good measure is in the power efficiency and not the power consumption. This is a very broad topic and is not the focus of this topic.
[问:] 什么是动æ€åŠŸçŽ‡ç®¡ç†åŠŸèƒ½? 飞æ€å¡å°”的电æºæ•ˆçŽ‡èƒ½è¾¾åˆ°å¤šé«˜? å½±å“电æºæ•ˆçŽ‡çš„因素有多少?
[答:飞æ€å¡å°”] 由於ä¸åŒçš„产å“达到ä¸åŒçš„电æºæ•ˆçŽ‡ 。
[问:] 使用LDO的时候如果输入和输出压差较大芯片å‘热é‡ä¼šä¸ä¼šå¾ˆå¤§ï¼Ÿ
[答:飞æ€å¡å°”] No, the package doesnt need heat sink for the issue.
[问:] 我们的系统需è¦5V,3.3V,1.8V,1.5V供电,其中5V的负载很轻,电æµåªæœ‰å‡ ä¸ªmA,而3.3V 的负载电æµæœ‰å‡ ç™¾mA。 输入电压为28V, 请问是用28V/5V, å†5V/3.3V等分级转æ¢ï¼Œ 还是分负载点直接转æ¢ï¼Ÿ 飞æ€å¡å°”有这样的产å“解决方案么?
[答:飞æ€å¡å°”] 飞æ€å¡å°”的器件å¯ä»¥æä¾›1è·¯5V/3.3V输出和1è·¯1.8V/1.5/V输出。如果使用5V/3.3V分æžè½¬æ¢å¯èƒ½éœ€è¦çš„芯片会增多,功耗增大,使用负载点的方案å¯èƒ½æ›´å¥½äº›ã€‚ 您的5V负载很轻,å¯ä»¥è€ƒè™‘使用其它方å¼æ¥å®žçŽ°ã€‚ å¯ä»¥è€ƒè™‘飞æ€å¡å°”çš„MC34710芯片。
[问:] 我们现在的项目是无线传感器网络,它对电æºçš„è¦æ±‚éžå¸¸ä¸¥æ ¼ï¼å› ä¸ºæ˜¯ä¸€æ¬¡æ€§çš„,所以对于电æºçš„使用è¦æœ‰å¾ˆå¤šçš„节能方案。ä¸çŸ¥é“飞æ€å¡å°”有没有这方é¢åº”用的解决?
[答:飞æ€å¡å°”] 本次飞æ€å¡å°”座谈åªä»‹ç»äº†ä¸€æ¬¾ç”µæ± ä¾›ç”µäº§å“,MPC18730。您å¯ä»¥å…ˆæ ¹æ®æ‚¨çš„具体è¦æ±‚比照MPC18730,看是å¦æ»¡è¶³éœ€è¦ã€‚ 还有您å¯ä»¥è®¿é—®é£žæ€å¡å°”的网站获得更多的无线产å“和解决方案。http://www.freescale.com.cn/Products/analog.asp
[问:] 我是åšSTB产å“方案设计的,需è¦æŠŠ5V的电压é™åŽ‹ä¸º3.3V/600maã€1.8V/600ma,应该采用那一款芯片åˆé€‚,大概æˆæœ¬å¦‚何?目å‰æˆ‘使用的是1085两å—。
[答:飞æ€å¡å°”] MC34710å¯ä»¥æ供两路输出,但是1.8V的输出仅æä¾›500mA的电æµã€‚您看是å¦å¯ä»¥æ»¡è¶³éœ€è¦ã€‚ 如果使用MC34701çš„è¯å¯ä»¥å®Œå…¨æ»¡è¶³æ‚¨çš„需è¦ã€‚
[问:] 我需è¦ä¸€ç§6V~60V宽输入范围, 输出5V~1.2V的电路, 能å¦æŽ¨è一款飞æ€å¡å°”的产å“。
[答:飞æ€å¡å°”] Recommend MC34129 (MC33129) PWM controller and apply Flyback topology. The solution can meet your requirement.
[问:] 希望给我们一个12v300mA低æˆæœ¬å°ä½“积高å¯é å¼€å…³ç”µæºæ–¹æ¡ˆï¼Ÿ
[答:飞æ€å¡å°”] 您是指12V输出å—。飞æ€å¡å°”ç›®å‰æ供的输出电压都低于12V。如果您需è¦12V输入,其它电压输出的è¯ï¼Œè¯·å’Œé£žæ€å¡å°”当地的工程师è”系。
[问:] 用硬件信å·èƒ½æŽ§åˆ¶ç”µæºä»¥å®žçŽ°å¯¹è´Ÿè½½çš„电æºå…³æ–­å’Œè‡ªåŠ¨é‡å¯ä¹ˆï¼Ÿ
[答:飞æ€å¡å°”] Yes.
[问:] 在负载出现短路或断路情况,电æºç®¡ç†èŠ¯ç‰‡æœ‰è‡ªæˆ‘ä¿æŠ¤åŠŸèƒ½å—?过去采用linear的芯片,曾出现烧DC/DC芯片的情况。
[答:飞æ€å¡å°”] Yes, Freescale power management solution provides overcurrent protection.
[问:] 在应用于DVB/数字电视方é¢ï¼Œæœ‰ä»€ä¹ˆç‰¹åˆ«æŽ¨è或是优势产å“?
[答:飞æ€å¡å°”] 请比较飞æ€å¡å°”芯片æ供的输出方å¼ï¼Œè¾“出电压,输出电æµï¼Œè¾“出的路数,等等,根æ®æ‚¨çš„产å“具体需è¦æ‰èƒ½å¤Ÿé€‰æ‹©åˆé€‚çš„åž‹å·ã€‚
[问:] 在热æ’拔设计中,如果æ¯æ¿å’Œå­æ¿å„自是一个工作系统,两者的电æºæ˜¯ç”±åŒä¸€ç”µæºæ¨¡å—输出的,å­æ¿çš„æ’拔造æˆäº†ç”µæºè´Ÿè½½çš„剧烈å˜åŒ–(å­å¡çš„功耗较大), 对æ¯æ¿æ¥è¯´ï¼Œä¼šé€ æˆä»€ä¹ˆæ ·çš„å½±å“,如何å‡å°è¿™ç§å½±å“?
[答:飞æ€å¡å°”] This is why you need to have a hotswap controller to limit the in-rush current on your motherboard. The exact reasoning applies of that from the backplane. Since the daughter card draws most of the current, removing it will create spikes on your motherboard. You need to have protection circuitry to prevent damages to your onboard components. Freescale hotswap will provide this function for you.
[问:] MC34701对比LT1941EFE在é™æ€åŠŸè€—上有什么优势?LT1941EFE在é™æ€åŠŸè€—也有几个毫安,MC34701会ä¸ä¼šæ›´å¥½ï¼Ÿ
[答:飞æ€å¡å°”] MC34701çš„é™æ€æŒ‡æ ‡å¯ä»¥å‚看datasheet,34701å¯ä»¥æ供一路开关电æºï¼Œ1.5A的驱动电æµã€‚和一路LDO。åŒæ—¶é’ˆå¯¹å¤„ç†å™¨çš„特点,æ供安全的上电和下电控制,确ä¿å¤„ç†å™¨æ­£å¸¸å·¥ä½œã€‚
[问:] 刚æ‰æˆ‘åˆçœ‹åˆ°PPT中有关给PROTABLE供电的芯片背é¢æœ‰ä¸è§„则的焊盘那是åšä»€ä¹ˆç”¨çš„呢?散热å—?
[答:飞æ€å¡å°”] Those pads that are in the middle are for Freescale internal testing purposes and are to be left alone and disconnected.
[问:] 飞æ€å¡å°”æä¾›å…费样片å—?
[答:飞æ€å¡å°”] 请跟飞æ€å¡å°”代ç†å•†è”ç³» (按地区检索或按å录查询): http://www.freescale.com.cn/others/wheretobuy/ 或到飞æ€å¡å°”å…费样å“网站进行申请: http://www.freescale.com/webapp/sps/site/overview.jsp?nodeId=010984007869597059286929489
[问:] é™åŽ‹è°ƒèŠ‚器的主è¦åº”用场åˆæ˜¯ä»€ä¹ˆï¼Ÿ
[答:飞æ€å¡å°”] 当è¦æ±‚的供电电压与供电电æºç”µåŽ‹ä¸åŒæ—¶ï¼Œéƒ½å¯èƒ½éœ€è¦ä½¿ç”¨ç”µåŽ‹è°ƒèŠ‚器。
[问:] 开关电æºæˆ–线性电æºçš„输出电压和输入电压相差较大时, 是å¦æ•ˆçŽ‡å°±é™ä½Ž?
[答:飞æ€å¡å°”] Ldo efficiency will be affected (drop) if the drop out voltage is increased (Vin-Vout). This is directly proportional to the efficiency. Switcher will be affected by the Inductor on-off cycle time. This duty cycle will affect the efficiency as it determines the ontime of the charging of the external components and hence the switching loss. For instance, if Vout is very small, the on time for charging to the inductor is less but the discharging path is longer. One would need to conduct analysis along this path and understand the current losses with respect to each components during the on and off cycles. Nevertheless, the bigger the difference between Vin and Vout, the more efficient it is to use the switcher as oppose to the LDO.
[问:] 开关是稳压å—效率å—他的周围电路影å“大å—?
[答:飞æ€å¡å°”] This depends on what the other components are. If the components belong to the switcher this will affect the efficiency. For instance, the DCR of the inductor, or the free-wheeling diode will both affect the switcher's efficiency.
[问:] 哪一款电æºèŠ¯ç‰‡é€‚åˆMCF5275,这些芯片是å¦å·²ç»é‡äº§ï¼Ÿ
[答:飞æ€å¡å°”] 飞æ€å¡å°”介ç»çš„MC34701/2/3都å¯ä»¥ç»™å®ƒä¾›ç”µï¼Œå…³é”®çœ‹æ‚¨çš„产å“对电æºçš„需求。请å‚看他们的datasheets。关于芯片的供货情况,请和飞æ€å¡å°”的销售或代ç†å•†è”ç³» (按地区检索或按å录查询): http://www.freescale.com.cn/others/wheretobuy/
[问:] 你们这几ç§ç”µæºèŠ¯ç‰‡çš„功耗å‚数是多大?
[答:飞æ€å¡å°”] Power consumption would depend on which device you are talking about and what loading you are applying to the circuit as well as what the input signal is. You need to refer to the datasheets and look this up for the max and minimium. To give you an example, if you are applying a low Vin verses that of a high Vin to the buck switcher then the device itself will consume more power for the low Vin because it needs to turn on the booster circuitry inside the chip. This is assuming that the loading is the same for both cases.
[问:] 请é€æ¼MC34703的供货价格范围。
[答:飞æ€å¡å°”] 请跟飞æ€å¡å°”代ç†å•†è”ç³» (按地区检索或按å录查询): http://www.freescale.com.cn/others/wheretobuy/ 或å‚阅飞æ€å¡å°”MC34703网页: http://www.freescale.com/webapp/sps/site/prod_summary.jsp?code=MC34703&nodeId=01435974403526
[问:] 请问飞æ€å¡å°”电æºç®¡ç†ä¸»è¦ç”¨äºŽå“ªäº›äº§å“上é¢ï¼Ÿ
[答:飞æ€å¡å°”] 飞æ€å¡å°”电æºç®¡ç†äº§å“适用于汽车ã€ç”µä¿¡ã€å·¥ä¸šå’Œæ¶ˆè´¹ç±»äº§å“。
[问:] 请问飞æ€å¡å°”能æ供整套方案å—,包括周围器件?
[答:飞æ€å¡å°”] 飞æ€å¡å°”åªæä¾› IC。
[问:] 请问什么是开关电æºï¼Œå®ƒä¸Žçº¿å½¢ç”µæºæœ‰ä»€ä¹ˆåŒºåˆ«?
[答:飞æ€å¡å°”] A switching power supply is one that chops up the output current to the load and maintains the output voltage by this chopped up load. This uses an external inductor to provide the current on one part of a duty cycle and allowing the switcher FET to be turned off during the latter part to minimize power loss. This is why a switcher has higher efficiency. An LDO, lowdrop out regulator is a liner regulator that directly drops the voltage across the FET and in turn providing the required output voltage. The greater you drop the voltage, the higher the loss. There are trade offs with these 2 types of supplies in terms of regulations, ripples, losses and efficiencies etc.
[问:] 我的电路设计需è¦5v/1A的电æµï¼Œæœ‰çŽ°æˆçš„集æˆå…ƒå™¨ä»¶å—(输入为6V)?
[答:飞æ€å¡å°”] 飞æ€å¡å°”çš„MC34701å¯ä»¥æä¾›1.5A的电æµï¼ŒåŒæ—¶è¿˜å…·æœ‰ä¸Šç”µå’Œä¸‹ç”µæŽ§åˆ¶åŠŸèƒ½å’Œå…¶å®ƒä¿æŠ¤åŠŸèƒ½ã€‚
[问:] 用于便æºå¼äº§å“,有何推è电æºæ–¹æ¡ˆï¼Ÿ
[答:飞æ€å¡å°”] 在本次座谈中飞æ€å¡å°”介ç»äº†ä¸€æ¬¾é£žæ€å¡å°”的电æºç®¡ç†äº§å“,适åˆå•ç”µæ± ä¾›ç”µã€‚请您å‚看本次座谈的内容。
[问:] 有å¯è°ƒ1~10A的电æµå馈(负载电阻在5~10é—´éšæœºå˜åŒ–)低æˆæœ¬å¼€å…³ç”µæºæ–¹æ¡ˆå—?年用é‡3~5万个/年。
[答:飞æ€å¡å°”] MC34703å¯ä»¥æä¾›10A电æµçš„输出。
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