Part: 74LS161

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Google Search Part Numbers Previous Parts:74H1G14GW-G,74HC373D,74HC390,74HC40103D,74HCT126,74HCT175D,74HCT237,74HCT238D,74HCT367D,74HCT377D,74HCT85E,74HL33245DB,74HVC02MTC,74LC86,74LCX126MTCX,74LCX74MTCX The followings are offers provided by our member in Electronic Components Offer site about the following parts: 74LS161": Post Date Part Number Brand D/C Desc Qty Company Thu Sep 28 02:39:00 UTC 2006 74LS161 (from hkin.com) HIT 99 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Thu Sep 28 02:39:00 UTC 2006 74LS161 (from standard server 2) HIT 99 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Thu Sep 28 02:39:00 UTC 2006 74LS161 (from parts server 2) HIT 99 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Thu Sep 28 02:39:00 UTC 2006 74LS161 (from hkin.com 2) HIT 99 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Thu Sep 28 02:39:00 UTC 2006 74LS161 (from hkin.com 2) HIT 99 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Mon Sep 18 08:48:00 UTC 2006 74LS161 (from hkin.com) GS * DIP 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:48:00 UTC 2006 74LS161 (from standard server 2) GS * DIP 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:48:00 UTC 2006 74LS161 (from parts server 2) GS * DIP 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:48:00 UTC 2006 74LS161 (from hkin.com 2) GS * DIP 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:48:00 UTC 2006 74LS161 (from hkin.com 2) GS * DIP 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:47:00 UTC 2006 74LS161 (from hkin.com) LGS * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:47:00 UTC 2006 74LS161 (from standard server 2) LGS * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:47:00 UTC 2006 74LS161 (from parts server 2) LGS * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:47:00 UTC 2006 74LS161 (from hkin.com 2) LGS * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:47:00 UTC 2006 74LS161 (from hkin.com 2) LGS * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:40:00 UTC 2006 74LS161 (from hkin.com) MOT * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:40:00 UTC 2006 74LS161 (from standard server 2) MOT * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:40:00 UTC 2006 74LS161 (from parts server 2) MOT * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:40:00 UTC 2006 74LS161 (from hkin.com 2) MOT * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Mon Sep 18 08:40:00 UTC 2006 74LS161 (from hkin.com 2) MOT * SOP-3.9MM 2500 KAM MING TIK (HK) ELECTRON CO. Sat Sep 30 01:51:00 UTC 2006 74LS161N (from hkin.com) TI 2004 DIP 5938 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161N (from standard server 2) TI 2004 DIP 5938 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161N (from parts server 2) TI 2004 DIP 5938 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161N (from hkin.com 2) TI 2004 DIP 5938 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161N (from hkin.com 2) TI 2004 DIP 5938 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:48:00 UTC 2006 74LS161N (from hkin.com) TI 2004 DIP 5000 Shen Zhen OML Technology Co.,Ltd Sat Sep 30 01:48:00 UTC 2006 74LS161N (from standard server 2) TI 2004 DIP 5000 Shen Zhen OML Technology Co.,Ltd Sat Sep 30 01:48:00 UTC 2006 74LS161N (from parts server 2) TI 2004 DIP 5000 Shen Zhen OML Technology Co.,Ltd Sat Sep 30 01:48:00 UTC 2006 74LS161N (from hkin.com 2) TI 2004 DIP 5000 Shen Zhen OML Technology Co.,Ltd Sat Sep 30 01:48:00 UTC 2006 74LS161N (from hkin.com 2) TI 2004 DIP 5000 Shen Zhen OML Technology Co.,Ltd Sat Sep 30 01:51:00 UTC 2006 74LS161P (from hkin.com) HITACHI 1998 DIP 599 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161P (from standard server 2) HITACHI 1998 DIP 599 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161P (from parts server 2) HITACHI 1998 DIP 599 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161P (from hkin.com 2) HITACHI 1998 DIP 599 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Sat Sep 30 01:51:00 UTC 2006 74LS161P (from hkin.com 2) HITACHI 1998 DIP 599 HONGKONG FEILONG INDUSTRY INTERNATIONAL LIMITED Last record 74LCX74MTCX: Post Date Part Number Brand D/C Desc Qty Company Sun Sep 24 11:28:00 UTC 2006 74LCX74MTCX (from hkin.com) FAIRCHILD 04+ TSSOP 180000 FREE-SKY (HK) ELECTRONICS CO., LIMITED Sat Sep 30 01:30:00 UTC 2006 74LCX74MTCX (from hkin.com) SMD 500 Shenzhen Ki Chuan Electronics Co;Ltd Sat Sep 30 01:30:00 UTC 2006 74LCX74MTCX (from hkin.com) FAIRCHILD TSSOP 180000 Shenzhen Ki Chuan Electronics Co;Ltd Sat Sep 16 03:49:00 UTC 2006 74LCX74MTCX (from hkin.com) FCS 04+ SSOP 33 YI FANG TECHNOLOGY CO., LIMITED Last record 74LCX126MTCX: Post Date Part Number Brand D/C Desc Qty Company Sat Sep 30 09:38:00 UTC 2006 74LCX126MTCX (from hkin.com) FSC 02+ TSSOP 31950 ARIC ELECTRONICS TECHNOLOGY (HK) CO., LIMITED Sat Sep 30 09:38:00 UTC 2006 74LCX126MTCX{LVC126} (from hkin.com) FSC 02+ TSSOP 32010 ARIC ELECTRONICS TECHNOLOGY (HK) CO., LIMITED Last record 74LC86: Post Date Part Number Brand D/C Desc Qty Company Wed Sep 6 05:37:00 UTC 2006 74LC86 (from hkin.com) TI 01+ TSSOP14 181 Shenzhen HangtianLong Electronics Technology Co.,Ltd If you want to find more about 74LS161, please visit us on HKin vid:offerengine20111021 74LS161,74LS161,Comments from user about 74LS161: In the mid-1980s to early-1990s, a crop of new high-performance Reduced Instruction Set Computer (RISC) microprocessors appeared, influenced by discrete RISC-like CPU designs such as the IBM 801 and others. Its major limitation for low voltage applications is the high voltage drop it exhibits in on-state (2 to 4 V). For notch filters, the degree to which unwanted signals at the notch frequency must be rejected determines the accuracy of the components, but not the Q, which is governed by desired steepness of the notch, i. One rarely finds modern circuits that are entirely analog. The MOSFET is the most used semiconductor device today. For high-pass and low-pass (as well as band-pass filters far from the center frequency), the required rejection may determine the slope of attenuation needed, and thus the "order" of the filter. Typically this will be a vacuum tube, or solid-state (transistor or operational amplifier). Current conduction in a semiconductor occurs via mobile or "free" electrons and holes, collectively known as charge carriers. Anything related to :74LS161, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: 74LS161, search hkinventory: 74LS161, In this circuit the base terminal of the transistor serves as the input, the collector is the output, and the emitter is common to both (for example, it may be tied to ground reference or a power supply rail), hence its name. The pipelined datapath is the most commonly used datapath design in microarchitecture today. Most power semiconductor devices are only used in commutation mode (i.e they are either on or off), and are therefore optimized for this. This effect is called electroluminescence and the color of the light (corresponding to the energy of the photon) is determined by the energy gap of the semiconductor. Datasheet Dir, DataSheet Archive Such a model is processed by a synthesis program, only if it is part of the logic design. The thyristor turn-off is passive, i.[specify] Minor changes in the standard (2000 and 2002) added the idea of protected types (similar to the concept of class in C++) and removed some restrictions from port mapping rules. Integrated circuits are used in virtually all electronic equipment today and have revolutionized the world of electronics. His chip solved many practical problems that Kilby's had not. Techniques such as branch prediction and speculative execution are used to lessen these branch penalties. Many more microprocessors are part of embedded systems, providing digital control of a myriad of objects from appliances to automobiles to cellular phones and industrial process control. LEDs are used as indicator lamps in many devices and are increasingly used for other lighting. any passive component and active component such as:Diode, The pipelined architecture allows multiple instructions to overlap in execution, much like an assembly line. Each logic gate is in turn represented by a circuit diagram describing the connections of the transistors used to implement it in some particular logic family. A capacitor (formerly known as condenser) is a device for storing electric charge. The size, latency, throughput and connectivity of memories within the system are also microarchitectural decisions. For example driver circuit 74LS161,74LS161,Comments from user about 74LS161: Being created once, a calculation block can be used in many other projects. Basically, an IGBT is a bipolar transistor driven by a power MOSFET: it has the advantages of being a minority carrier device (good performance in on-state, even for high voltage devices), with the high input impedance of a MOSFET (it can be driven on or off with a very low amount of power). This equation is linear with respect to temperature. In electronics, a common-emitter amplifier is one of three basic single-stage bipolar-junction-transistor (BJT) amplifier topologies, typically used as a voltage amplifier.[3] Some of these stages include instruction fetch, instruction decode, execute, and write back. Style, price, specification and performance are all relevant. In February 2008, Accellera approved VHDL 4. While 64-bit microprocessor designs have been in use in several markets since the early 1990s, the early 2000s saw the introduction of 64-bit microprocessors targeted at the PC market. Anything related to :74LS161, or electronic components and electronic component distributors such as:fairchild,avx capacitor,6502, or electronics part index in: 74LS161See also: Capacitor Transistor Diode