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参数资料
型号: MSC7119VM1200
厂商: FREESCALE SEMICONDUCTOR INC
元件分类: 数字信号处理
英文描述: 0-BIT, 300 MHz, OTHER DSP, PBGA400
封装: LEAD FREE, MAPBGA-400
文件页数: 46/60页
文件大小: 1138K
代理商: MSC7119VM1200
MSC7119 Data Sheet, Rev. 8
Hardware Design Considerations
Freescale Semiconductor
50
3.3.2
Peripheral Power
Peripherals include the DDR memory controller, Ethernet controller, DMA controller, HDI16, TDM, UART, timers, GPIOs,
and the I
2C module. Basic power consumption by each module is assumed to be the same and is computed by using the
following equation which assumes an effective load of 20 pF, core voltage swing of 1.2 V, and a switching frequency of 100
MHz. This yields:
PPERIPHERAL = 20 pF × (1.2 V)
2 × 150 MHz × 10–3 = 4.32 mW per peripheral
Eqn. 6
Multiply this value by the number of peripherals used in the application to compute the total peripheral power consumption.
3.3.3
External Memory Power
Estimation of power consumption by the DDR memory system is complex. It varies based on overall system signal line usage,
termination and load levels, and switching rates. Because the DDR memory includes terminations external to the MSC7119
device, the 2.5 V power source provides the power for the termination, which is a static value of 16 mA per signal driven high.
The dynamic power is computed, however, using a differential voltage swing of ±0.200 V, yielding a peak-to-peak swing of 0.4
V. The equations for computing the DDR power are:
PDDRIO = PSTATIC + PDYNAMIC
Eqn. 7
PSTATIC = (unused pins × % driven high) × 16 mA × 2.5 V
Eqn. 8
PDYNAMIC = (pin activity value) × 20 pF × (0.4 V)
2 × 300 MHz × 10–3 mW
Eqn. 9
pin activity value = (active data lines
× % activity × % data switching) + (active address lines × % activity)
Eqn. 10
As an example, assume the following:
unused pins = 16 (DDR uses 16-pin mode)
% driven high = 50%
active data lines = 16
% activity = 60%
% data switching = 50%
active address lines = 3
In this example, the DDR memory power consumption is:
PDDRIO = ((16 × 0.5) × 16 × 2.5) + (((16 × 0.6 × 0.5) + (3 × 0.6)) × 20 × (0.4)
2
× 300 × 10–3) = 326.3 mW
Eqn. 11
3.3.4
External I/O Power
The estimation of the I/O power is similar to the computation of the peripheral power estimates. The power consumption per
signal line is computed assuming a maximum load of 20 pF, a voltage swing of 3.3 V, and a switching frequency of 25 MHz,
which yields:
PIO = 20 pF × (3.3 V)
2
× 25 MHz × 10–3 = 5.44 mW per I/O line
Eqn. 12
Multiply this number by the number of I/O signal lines used in the application design to compute the total I/O power.
Note:
The signal loading depends on the board routing. For systems using a single DDR device, the load could be as low as
7 pF.
3.3.5
Leakage Power
The leakage power is for all power supplies combined at a specific temperature. The value is temperature dependent. The
observed leakage value at room temperature is 64 mW.
相关PDF资料
PDF描述
MSC8102M4000 32-BIT, 75 MHz, OTHER DSP, CBGA431
MSC8122TVT6400 32-BIT, 400 MHz, OTHER DSP, PBGA431
MSC8122TVT4800V 32-BIT, 300 MHz, OTHER DSP, PBGA431
MSC8122MP8000 32-BIT, 500 MHz, OTHER DSP, PBGA431
MSC8144ETVT800B 133 MHz, OTHER DSP, PBGA783
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