電流反饋架構在寬闊的帶寬上最大化設計靈活性 2008年6月10日達拉斯消息，德州儀器于當天宣布推出一個雙信道，高速電流反饋放大器。該設備擁有70％多的帶寬，超過競爭設備，利用高線性提供快速信號調節，實現最小化變形，實現信號保真度和簡易的過濾度。放大器提供了寬泛的電壓選擇和大量的獲利能力，并為工程師帶來靈活性，以調整參數適應特殊的需求，如針對差分信號的高獲得性；用于低功耗的高輸出電壓和輸出電流。此外，設備的最優化對稱包使設計用于有效的精確的精度射頻放大器，高速的隨意波形輸出驅動器，寬帶模擬數字轉換器（ADC）驅動器和有效的過濾器。（更多信息請登錄：www.ti.com/opa2695-pr ） 電流反饋架構優化帶寬斜率并最小化變形 不像傳統的電壓反饋或是完全的差分放大器，OPA2695為高速應用提供了新層次性能。由于其電流反饋架構，OPA2695可傳送850 MHz的帶寬，2900 V/µs的回轉比率，實現高速信號連接。 該架構還提供寬闊的帶寬能力，以電壓反饋架構獲得更高的利潤。作為對比，全部差分擴大器，對于差分信號路徑來說很受歡迎，都是基于一個電壓反饋架構，在降低帶寬的情況下實現大利潤。 OPA2695將電流反饋架構與優化的差分針腳相結合，可獲得豐厚的增益和帶寬，維護高線性，低諧波變形級別，減輕設計過程。針腳提供了高級對稱信號通道，在芯片的對面帶有輸入和輸出針腳，最大化的放大了PC板布局。 提供電壓選擇 提高設計靈活性 此外，設計師們還擁有了提供單電源（3.5 V到12 V）或雙電源（+/-1.75 V到+/-6 V）的靈活性，使OPA2695更適合他們的要求。例如，當提供的電壓在±5 V，獲利在+8 V/V時，OPA2695可傳送大量的輸出電壓沖力（+/-4.1 V）或120 mA 8.2 Vpp發射或下沉輸出驅動電流進入ADC，用于精確的數字化。 二選一地，在提供+5 V的較低單個電源電壓時，當仍在傳送+/-90 mA輸出電流3.4Vpp時，設備可節省功率用于功率靈敏性應用，如手持式便攜設備。進一步降低功率損耗，降低一個的功率，可減少靜電流損耗至80 µA。 OPA2695擴展了TI的高速的、電流反饋擴大器組合，能提供行業最寬的帶寬。提供包括以下幾個部分： 更多信息或是下載最新放大器或數據轉換器選擇指南，請登錄：www.ti.com/amplifier [font=times]original text [/font] [font=times][color=#708090]Current feedback architecture delivers larger gains at wide bandwidths to maximize design flexibility DALLAS （June 10, 2008） - Texas Instruments Incorporated （TI） （NYSE: TXN） introduced today a dual-channel, high-speed current feedback amplifier. The device features 70 percent greater bandwidth gain at +2 V/V than competitive devices, providing fast signal conditioning with the highest linearity to minimize distortion for better signal fidelity and easier filtering. The amplifier offers wide supply voltage options and large gain capability, giving engineers the flexibility to adjust the parameters to address the specific need, such as high gain for differential signals or high output voltage or current for low power consumption. In addition, the device’s optimized symmetrical package eases layout for cost-effective precision IF amplifiers, high-speed arbitrary waveform output drivers, wideband analog-to-digital converter （ADC） drivers and active filters. （For more information see www.ti.com/opa2695-pr.） Current feedback architecture optimizes bandwidth and slew rate and minimizes distortion Unlike traditional voltage feedback or fully differential amplifiers, the OPA2695 offers a new level of performance for high-speed applications. Due to its current feedback architecture, the OPA2695 can deliver a high bandwidth of 850 MHz at a gain of +2 V/V and a fast slew rate of 2900 V/µs to process high-speed signals. The architecture also provides wider bandwidth capability at much higher gains than can be achieved with a voltage feedback architecture. In contrast, fully differential amplifiers, which are popular for differential signal paths and are based on a voltage feedback architecture, suffer from reduced bandwidths at larger gains. The OPA2695 combines the current-feedback architecture with an optimized differential pin-out, which provides superior gain and bandwidth, maintains high linearity with low harmonic distortion levels, and eases the design process. The pin-out gives super-symmetrical signal paths with input and output pins on opposite sides of the chip to greatly simplify PC board layout. Supply voltage options increase design flexibility In addition, designers have the flexibility to provide a single supply voltage （3.5 V to 12 V） or a dual supply voltage （+/-1.75 V to +/-6 V） to the OPA2695 to suit their requirements. For example, with a supply voltage of ±5 V and gain of +8 V/V, the OPA2695 can deliver a large output voltage swing of +/-4.1 V or 8.2 Vpp with a 120 mA sourcing or sinking output drive current into an ADC for accurate digitization. Alternatively, at a lower single supply voltage of +5 V, the device can save power while still delivering +/-90 mA output current with a 3.4 Vpp for power-sensitive applications, such as handheld portable devices. To further reduce power consumption, a power down option is also available, which reduces the quiescent current consumption to 80 µA. The OPA2695 extends TI‘s high-speed, current feedback amplifier portfolio, which offers the industry‘s widest bandwidth. [/color][/font]