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Measuring Power
Table 4–3. LEDs Power State (Resources)
Displays
Resources
Measuring
Power
f
4–2
Cyclone III FPGA Starter Kit User Guide
LEDs
MSB
LSB
LED4
LED3
The design used for power measurement is a replicated set of randomly
filled ROMs that feed a multiplier block and a shift register that is fed by
a signal that changes every clock cycle.
power state which represent the percent of the full design used. As
compiled, this full design uses:
■
Logic elements: 22,493/24,624 (91%)
■
Combinational functions: 1,961/24,624 (8%)
■
Dedicated logic registers: 21,133/24,624 (86%)
■
Total registers: 21,133
■
Total pins: 73/216 (34%)
■
Total memory bits: 524,288/608,256 (86%)
■
Embedded Multiplier 9-bit elements: 128/132 (97 %)
■
Total PLLs: 1/4 (25%)
The example design is located in
<kit install>\examples\cycloneIII_3c25_start_power_demo. Configure
the FPGA with the .sof found in the directory.
1
The input clock (i_clk PIN_B9) is the 50-MHz oscillator on the
board, which generates the input clock for the reference design
through a PLL
For more information on configuring the FPGA, refer to
the FPGA Using the Quartus II Programmer" on page
Current sense resistors (0.010 ± 1%) are installed at locations JP6 (FPGA
core power) and JP3 (FPGA I/O power + other device I/O power). With
a digital multimeter set to mV measurement range, the resistor at location
JP6 measures the core power. The resistor at location JP3 measures the
I/O power. To measure the current being used in various configurations,
use the following steps:
State
% of Design Used
00
25%
01
50%
10
75%
11
100%
Tables 4–2
and
4–3
show the
"Configuring
2–3.
Altera Corporation
July 2010
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