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EPM7192SQC160-10 参数 Datasheet PDF下载

EPM7192SQC160-10图片预览
型号: EPM7192SQC160-10
PDF下载: 下载PDF文件 查看货源
内容描述: 可编程逻辑器件系列 [Programmable Logic Device Family]
分类和应用: 可编程逻辑器件输入元件LTE时钟
文件页数/大小: 62 页 / 1087 K
品牌: ALTERA [ ALTERA CORPORATION ]
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MAX 7000 Programmable Logic Device Family Data Sheet  
Each programmable register can be clocked in three different modes:  
By a global clock signal. This mode achieves the fastest clock-to-  
output performance.  
By a global clock signal and enabled by an active-high clock  
enable. This mode provides an enable on each flipflop while still  
achieving the fast clock-to-output performance of the global  
clock.  
By an array clock implemented with a product term. In this  
mode, the flipflop can be clocked by signals from buried  
macrocells or I/ O pins.  
In EPM7032, EPM7064, and EPM7096 devices, the global clock signal  
is available from a dedicated clock pin, GCLK1, as shown in Figure 1.  
In MAX 7000E and MAX 7000S devices, two global clock signals are  
available. As shown in Figure 2, these global clock signals can be the  
true or the complement of either of the global clock pins, GCLK1or  
GCLK2.  
Each register also supports asynchronous preset and clear functions.  
As shown in Figures 3 and 4, the product-term select matrix allocates  
product terms to control these operations. Although the  
product-term-driven preset and clear of the register are active high,  
active-low control can be obtained by inverting the signal within the  
logic array. In addition, each register clear function can be  
individually driven by the active-low dedicated global clear pin  
(GCLRn). Upon power-up, each register in the device will be set to a  
low state.  
All MAX 7000E and MAX 7000S I/ O pins have a fast input path to a  
macrocell register. This dedicated path allows a signal to bypass the  
PIA and combinatorial logic and be driven to an input D flipflop with  
an extremely fast (2.5 ns) input setup time.  
Expander Product Terms  
Although most logic functions can be implemented with the five  
product terms available in each macrocell, the more complex logic  
functions require additional product terms. Another macrocell can  
be used to supply the required logic resources; however, the  
MAX 7000 architecture also allows both shareable and parallel  
expander product terms (“expanders”) that provide additional  
product terms directly to any macrocell in the same LAB. These  
expanders help ensure that logic is synthesized with the fewest  
possible logic resources to obtain the fastest possible speed.  
Altera Corporation  
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