EP4SGX360FH29C3N Altera, EP4SGX360FH29C3N Datasheet - Page 150
EP4SGX360FH29C3N
Manufacturer Part Number
EP4SGX360FH29C3N
Description
IC STRATIX IV FPGA 360K 780HBGA
Manufacturer
Altera
Series
Stratix® IV GXr
Datasheets
1.EP4SGX110DF29C3N.pdf
(80 pages)
2.EP4SGX110DF29C3N.pdf
(1154 pages)
3.EP4SGX110DF29C3N.pdf
(432 pages)
4.EP4SGX110DF29C3N.pdf
(22 pages)
5.EP4SGX110DF29C3N.pdf
(30 pages)
6.EP4SGX110DF29C3N.pdf
(72 pages)
Specifications of EP4SGX360FH29C3N
Number Of Logic Elements/cells
353600
Number Of Labs/clbs
14144
Total Ram Bits
22564
Number Of I /o
289
Voltage - Supply
0.87 V ~ 0.93 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
780-HBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Number Of Gates
-
Available stocks
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Manufacturer
Quantity
Price
Company:
Part Number:
EP4SGX360FH29C3N
Manufacturer:
Bussmann
Quantity:
40 000
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EP4SGX360FH29C3N
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ALTERA21
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53
5–34
Stratix IV Device Handbook Volume 1
Programmable Duty Cycle
Programmable Phase Shift
The programmable duty cycle allows PLLs to generate clock outputs with a variable
duty cycle. This feature is supported on the PLL post-scale counters. The duty-cycle
setting is achieved by a low and high time-count setting for the post-scale counters. To
determine duty cycle choices, the Quartus II software uses the frequency input and
the required multiply or divide rate. The post-scale counter value determines the
precision of the duty cycle. Precision is defined as 50% divided by the post-scale
counter value. For example, if the C0 counter is 10, steps of 5% are possible for
duty-cycle choices from 5% to 90%.
If the PLL is in external feedback mode, set the duty cycle for the counter driving the
fbin pin to 50%. Combining the programmable duty cycle with programmable phase
shift allows the generation of precise non-overlapping clocks.
Use phase shift to implement a robust solution for clock delays in Stratix IV devices.
Implement phase shift by using a combination of the VCO phase output and the
counter starting time. A combination of VCO phase output and counter starting time
is the most accurate method of inserting delays because it is only based on counter
settings, which are independent of process, voltage, and temperature (PVT).
You can phase-shift the output clocks from the Stratix IV PLLs in either of these two
resolutions:
■
■
Implement fine-resolution phase shifts by allowing any of the output counters
(C[n..0]) or the m counter to use any of the eight phases of the VCO as the reference
clock. This allows you to adjust the delay time with a fine resolution.
shows the minimum delay time that you can insert using this method.
Equation 5–1. Fine-Resolution Phase Shift
where f
For example, if f
equals 156.25 ps. This phase shift is defined by the PLL operating frequency, which is
governed by the reference clock frequency and the counter settings.
Fine resolution using VCO phase taps
Coarse resolution using counter starting time
R EF
is the input reference clock frequency.
REF
is 100 MHz, N is 1, and M is 8, then f
Φ
fine
=
1
8
T
VCO
=
8f
VCO
Chapter 5: Clock Networks and PLLs in Stratix IV Devices
1
=
8Mf
N
REF
VCO
is 800 MHz and
February 2011 Altera Corporation
PLLs in Stratix IV Devices
Equation 5–1
Φ
fine
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