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ADSP-BF532SBBZ400 参数 Datasheet PDF下载

ADSP-BF532SBBZ400图片预览
型号: ADSP-BF532SBBZ400
PDF下载: 下载PDF文件 查看货源
内容描述: [16-BIT, 40 MHz, OTHER DSP, PBGA169, ROHS COMPLIANT, PLASTIC, MO-034AAG-2, BGA-169]
分类和应用: 时钟外围集成电路
文件页数/大小: 65 页 / 5323 K
品牌: ROCHESTER [ Rochester Electronics ]
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ADSP-BF531/ADSP-BF532/ADSP-BF533  
PFx pins defined as inputs can be configured to generate  
hardware interrupts, while output PFx pins can be trig-  
gered by software interrupts.  
• GPIO interrupt sensitivity registers – The two GPIO inter-  
rupt sensitivity registers specify whether individual PFx  
pins are level- or edge-sensitive and specify—if edge-sensi-  
tive—whether just the rising edge or both the rising and  
falling edges of the signal are significant. One register  
selects the type of sensitivity, and one register selects which  
edges are significant for edge-sensitivity.  
Output Mode  
Output mode is used for transmitting video or other data with  
up to three output frame syncs. Typically, a single frame sync is  
appropriate for data converter applications, whereas two or  
three frame syncs could be used for sending video with hard-  
ware signaling.  
ITU-R 656 Mode Descriptions  
The ITU-R 656 modes of the PPI are intended to suit a wide  
variety of video capture, processing, and transmission applica-  
tions. Three distinct sub modes are supported:  
• Active video only mode  
• Vertical blanking only mode  
• Entire field mode  
PARALLEL PERIPHERAL INTERFACE  
The processors provide a parallel peripheral interface (PPI) that  
can connect directly to parallel ADCs and DACs, video encod-  
ers and decoders, and other general-purpose peripherals. The  
PPI consists of a dedicated input clock pin, up to three frame  
synchronization pins, and up to 16 data pins. The input clock  
supports parallel data rates up to half the system clock rate and  
the synchronization signals can be configured as either inputs or  
outputs.  
The PPI supports a variety of general-purpose and ITU-R 656  
modes of operation. In general-purpose mode, the PPI provides  
half-duplex, bi-directional data transfer with up to 16 bits of  
data. Up to three frame synchronization signals are also pro-  
vided. In ITU-R 656 mode, the PPI provides half-duplex bi-  
directional transfer of 8- or 10-bit video data. Additionally, on-  
chip decode of embedded start-of-line (SOL) and start-of-field  
(SOF) preamble packets is supported.  
Active Video Only Mode  
Active video only mode is used when only the active video por-  
tion of a field is of interest and not any of the blanking intervals.  
The PPI does not read in any data between the end of active  
video (EAV) and start of active video (SAV) preamble symbols,  
or any data present during the vertical blanking intervals. In this  
mode, the control byte sequences are not stored to memory;  
they are filtered by the PPI. After synchronizing to the start of  
Field 1, the PPI ignores incoming samples until it sees an SAV  
code. The user specifies the number of active video lines per  
frame (in PPI_COUNT register).  
Vertical Blanking Interval Mode  
In this mode, the PPI only transfers vertical blanking interval  
(VBI) data.  
General-Purpose Mode Descriptions  
The general-purpose modes of the PPI are intended to suit a  
wide variety of data capture and transmission applications.  
Entire Field Mode  
Three distinct sub modes are supported:  
• Input mode – Frame syncs and data are inputs into the PPI.  
• Frame capture mode – Frame syncs are outputs from the  
PPI, but data are inputs.  
• Output mode – Frame syncs and data are outputs from the  
PPI.  
In this mode, the entire incoming bit stream is read in through  
the PPI. This includes active video, control preamble sequences,  
and ancillary data that can be embedded in horizontal and verti-  
cal blanking intervals. Data transfer starts immediately after  
synchronization to Field 1. Data is transferred to or from the  
synchronous channels through eight DMA engines that work  
autonomously from the processor core.  
Input Mode  
DYNAMIC POWER MANAGEMENT  
Input mode is intended for ADC applications, as well as video  
communication with hardware signaling. In its simplest form,  
PPI_FS1 is an external frame sync input that controls when to  
read data. The PPI_DELAY MMR allows for a delay (in  
PPI_CLK cycles) between reception of this frame sync and the  
initiation of data reads. The number of input data samples is  
user programmable and defined by the contents of the  
PPI_COUNT register. The PPI supports 8-bit and 10-bit  
through 16-bit data, programmable in the PPI_CONTROL  
register.  
The ADSP-BF531/ADSP-BF532/ADSP-BF533 processors pro-  
vides four operating modes, each with a different performance/  
power profile. In addition, dynamic power management pro-  
vides the control functions to dynamically alter the processor  
core supply voltage, further reducing power dissipation. Control  
of clocking to each of the processor peripherals also reduces  
power consumption. See Table 4 for a summary of the power  
settings for each mode.  
Full-On Operating Mode—Maximum Performance  
In the full-on mode, the PLL is enabled and is not bypassed,  
providing capability for maximum operational frequency. This  
is the power-up default execution state in which maximum per-  
formance can be achieved. The processor core and all enabled  
peripherals run at full speed.  
Frame Capture Mode  
Frame capture mode allows the video source(s) to act as a slave  
(e.g., for frame capture). The processors control when to read  
from the video source(s). PPI_FS1 is an HSYNC output and  
PPI_FS2 is a VSYNC output.  
Rev. H  
| Page 11 of 64 | January 2011  
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