Intel® Cyclone® 10 GX Device Datasheet
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Contents
Intel® Cyclone® 10 GX Device Datasheet....................................................................................................................................3
Electrical Characteristics...................................................................................................................................................... 3
Operating Conditions..................................................................................................................................................3
Switching Characteristics....................................................................................................................................................21
Transceiver Performance Specifications....................................................................................................................... 21
Core Performance Specifications.................................................................................................................................29
Periphery Performance Specifications..........................................................................................................................36
Configuration Specifications................................................................................................................................................44
POR Specifications....................................................................................................................................................44
JTAG Configuration Timing.........................................................................................................................................45
FPP Configuration Timing.......................................................................................................................................... 45
AS Configuration Timing............................................................................................................................................49
DCLK Frequency Specification in the AS Configuration Scheme....................................................................................... 50
PS Configuration Timing............................................................................................................................................50
Initialization............................................................................................................................................................ 52
Configuration Files....................................................................................................................................................52
Minimum Configuration Time Estimation......................................................................................................................54
Remote System Upgrades......................................................................................................................................... 55
User Watchdog Internal Circuitry Timing Specifications..................................................................................................55
I/O Timing....................................................................................................................................................................... 55
Programmable IOE Delay................................................................................................................................................... 56
Glossary.......................................................................................................................................................................... 56
Document Revision History for the Intel Cyclone 10 GX Device Datasheet................................................................................. 60
Contents
Intel® Cyclone® 10 GX Device Datasheet
2
Intel® Cyclone® 10 GX Device Datasheet
This datasheet describes the electrical characteristics, switching characteristics, configuration specifications, and I/O timing
for Intel® Cyclone® 10 GX devices.
Intel Cyclone 10 GX devices are offered in extended and industrial grades. Extended devices are offered in –E5 (fastest) and –
E6 speed grades. Industrial grade devices are offered in the –I5 and –I6 speed grades.
Related Information
Intel Cyclone 10 GX Device Overview
Provides more information about the densities and packages in the Intel Cyclone 10 GX devices.
Electrical Characteristics
The following sections describe the operating conditions and power consumption of Intel Cyclone 10 GX devices.
Operating Conditions
Intel Cyclone 10 GX devices are rated according to a set of defined parameters. To maintain the highest possible performance
and reliability of the Intel Cyclone 10 GX devices, you must consider the operating requirements described in this section.
Absolute Maximum Ratings
This section defines the maximum operating conditions for Intel Cyclone 10 GX devices. The values are based on experiments
conducted with the devices and theoretical modeling of breakdown and damage mechanisms. The functional operation of the
device is not implied for these conditions.
Caution: Conditions outside the range listed in the following table may cause permanent damage to the device. Additionally, device
operation at the absolute maximum ratings for extended periods of time may have adverse effects on the device.
C10GX51002 | 2018.06.15
Intel Corporation. All rights reserved. Intel, the Intel logo, Altera, Arria, Cyclone, Enpirion, MAX, Nios, Quartus and Stratix words and logos are trademarks of Intel
Corporation or its subsidiaries in the U.S. and/or other countries. Intel warrants performance of its FPGA and semiconductor products to current specifications in
accordance with Intel's standard warranty, but reserves the right to make changes to any products and services at any time without notice. Intel assumes no
responsibility or liability arising out of the application or use of any information, product, or service described herein except as expressly agreed to in writing by
Intel. Intel customers are advised to obtain the latest version of device specifications before relying on any published information and before placing orders for
products or services.
*Other names and brands may be claimed as the property of others.
ISO
9001:2008
Registered
Table 1. Absolute Maximum Ratings for Intel Cyclone 10 GX Devices
Symbol Description Condition Minimum Maximum Unit
VCC Core voltage power supply –0.50 1.21 V
VCCP Periphery circuitry and transceiver fabric interface power supply –0.50 1.21 V
VCCERAM Embedded memory power supply –0.50 1.36 V
VCCPT Power supply for programmable power technology and I/O pre-driver –0.50 2.46 V
VCCBAT Battery back-up power supply for design security volatile key register –0.50 2.46 V
VCCPGM Configuration pins power supply (1) –0.50 2.46 V
VCCIO I/O buffers power supply 3 V I/O –0.50 4.10 V
LVDS I/O –0.50 2.46 V
VCCA_PLL Phase-locked loop (PLL) analog power supply –0.50 2.46 V
VCCT_GXB Transmitter power supply –0.50 1.34 V
VCCR_GXB Receiver power supply –0.50 1.34 V
VCCH_GXB Transceiver output buffer power supply –0.50 2.46 V
continued...
(1) The LVDS I/O values are applicable to all dedicated and dual-function configuration I/Os.
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Symbol Description Condition Minimum Maximum Unit
IOUT DC output current per pin –25 (2)(3)(4)(5)
(6)
25 mA
TJOperating junction temperature –55 125 °C
TSTG Storage temperature (no bias) –65 150 °C
Related Information
AN 692: Power Sequencing Considerations for Intel Cyclone 10 GX, Intel Arria 10, and Intel Stratix 10 Devices
Provides the power sequencing requirements for Intel Cyclone 10 GX devices.
Power-Up and Power-Down Sequences, Power Management in Intel Cyclone 10 GX Devices chapter
Provides the power sequencing requirements for Intel Cyclone 10 GX devices.
Maximum Allowed Overshoot and Undershoot Voltage
During transitions, input signals may overshoot to the voltage listed in the following table and undershoot to –2.0 V for input
currents less than 100 mA and periods shorter than 20 ns.
The maximum allowed overshoot duration is specified as a percentage of high time over the lifetime of the device. A DC signal
is equivalent to 100% duty cycle.
For example, a signal that overshoots to 2.70 V for LVDS I/O can only be at 2.70 V for ~4% over the lifetime of the device.
(2) The maximum current allowed through any LVDS I/O bank pin when the device is not turned on or during power-up/power-down
conditions is 10 mA.
(3) Total current per LVDS I/O bank must not exceed 100 mA.
(4) Voltage level must not exceed 1.89 V.
(5) Applies to all I/O standards and settings supported by LVDS I/O banks, including single-ended and differential I/Os.
(6) Applies only to LVDS I/O banks. 3 V I/O banks are not covered under this specification and must be implemented as per the power
sequencing requirement. For more details, refer to AN 692: Power Sequencing Considerations for Intel Cyclone 10 GX, Intel Arria® 10,
and Intel Stratix® 10 Devices and Power Management in Intel Cyclone 10 GX Devices chapter.
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Table 2. Maximum Allowed Overshoot During Transitions for Intel Cyclone 10 GX Devices
This table lists the maximum allowed input overshoot voltage and the duration of the overshoot voltage as a percentage of device lifetime. The LVDS I/O values
are applicable to the VREFP_ADC and VREFN_ADC I/O pins.
Symbol Description Condition (V) Overshoot Duration as % at TJ = 100°C Unit
LVDS I/O (7) 3 V I/O
Vi (AC) AC input voltage 2.50 3.80 100 %
2.55 3.85 42 %
2.60 3.90 18 %
2.65 3.95 9 %
2.70 4.00 4 %
> 2.70 > 4.00 No overshoot allowed %
For an overshoot of 2.5 V, the percentage of high time for the overshoot can be as high as 100% over a 10-year period.
Percentage of high time is calculated as ([delta T]/T) × 100. This 10-year period assumes that the device is always turned on
with 100% I/O toggle rate and 50% duty cycle signal.
(7) The LVDS I/O values are applicable to all dedicated and dual-function configuration I/Os.
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Figure 1. Intel Cyclone 10 GX Devices Overshoot Duration
1.8 V
2.7V
2.71 V
T
DT
Recommended Operating Conditions
This section lists the functional operation limits for the AC and DC parameters for Intel Cyclone 10 GX devices.
Recommended Operating Conditions
Table 3. Recommended Operating Conditions for Intel Cyclone 10 GX Devices
This table lists the steady-state voltage values expected from Intel Cyclone 10 GX devices. Power supply ramps must all be strictly monotonic, without plateaus.
Symbol Description Condition Minimum (8) Typical Maximum (8) Unit
VCC Core voltage power supply 0.87 0.9 0.93 V
VCCP Periphery circuitry and transceiver fabric
interface power supply
0.87 0.9 0.93 V
VCCPGM Configuration pins power supply 1.8 V 1.71 1.8 1.89 V
1.5 V 1.425 1.5 1.575 V
continued...
(8) This value describes the budget for the DC (static) power supply tolerance and does not include the dynamic tolerance requirements.
Refer to the PDN tool for the additional budget for the dynamic tolerance requirements.
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Symbol Description Condition Minimum (8) Typical Maximum (8) Unit
1.2 V 1.14 1.2 1.26 V
VCCERAM Embedded memory power supply 0.9 V 0.87 0.9 0.93 V
VCCBAT (9) Battery back-up power supply
(For design security volatile key register)
1.8 V 1.71 1.8 1.89 V
1.2 V 1.14 1.2 1.26 V
VCCPT Power supply for programmable power
technology and I/O pre-driver
1.8 V 1.71 1.8 1.89 V
VCCIO I/O buffers power supply 3.0 V (for 3 V I/O only) 2.85 3.0 3.15 V
2.5 V (for 3 V I/O only) 2.375 2.5 2.625 V
1.8 V 1.71 1.8 1.89 V
1.5 V 1.425 1.5 1.575 V
1.35 V (10)1.35 (10)V
1.25 V 1.19 1.25 1.31 V
1.2 V (10)1.2 (10)V
VCCA_PLL PLL analog voltage regulator power supply 1.71 1.8 1.89 V
VREFP_ADC Precision voltage reference for voltage
sensor
1.2475 1.25 1.2525 V
continued...
(8) This value describes the budget for the DC (static) power supply tolerance and does not include the dynamic tolerance requirements.
Refer to the PDN tool for the additional budget for the dynamic tolerance requirements.
(9) If you do not use the design security feature in Intel Cyclone 10 GX devices, connect VCCBAT to a 1.5-V to 1.8-V power supply. Intel
Cyclone 10 GX power-on reset (POR) circuitry monitors VCCBAT. Intel Cyclone 10 GX devices do not exit POR if VCCBAT is not powered
up.
(10) For minimum and maximum voltage values, refer to the I/O Standard Specifications section.
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Symbol Description Condition Minimum (8) Typical Maximum (8) Unit
VI (11)(12) DC input voltage 3 V I/O –0.3 3.3 V
LVDS I/O –0.3 2.19 V
VOOutput voltage 0 VCCIO V
TJOperating junction temperature Extended 0 100 °C
Industrial –40 100 °C
tRAMP (13) Power supply ramp time Standard POR 200 µs 100 ms
Fast POR 200 µs 4 ms
Related Information
I/O Standard Specifications on page 15
Transceiver Power Supply Operating Conditions
Table 4. Transceiver Power Supply Operating Conditions for Intel Cyclone 10 GX Devices
Symbol Description Condition Minimum (14) Typical Maximum (14) Unit
VCCT_GXB[L1][C,D] Transmitter power supply Chip-to-chip ≤
12.5 Gbps
Or
1.0 1.03 1.06 V
continued...
(8) This value describes the budget for the DC (static) power supply tolerance and does not include the dynamic tolerance requirements.
Refer to the PDN tool for the additional budget for the dynamic tolerance requirements.
(11) The LVDS I/O values are applicable to all dedicated and dual-function configuration I/Os.
(12) This value applies to both input and tri-stated output configuration. Pin voltage should not be externally pulled higher than the
maximum value.
(13) tramp is the ramp time of each individual power supply, not the ramp time of all combined power supplies.
(14) This value describes the budget for the DC (static) power supply tolerance and does not include the dynamic tolerance requirements.
Refer to the PDN tool for the additional budget for the dynamic tolerance requirements.
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Symbol Description Condition Minimum (14) Typical Maximum (14) Unit
Backplane ≤
6.6 Gbps
Chip-to-chip ≤
11.3 Gbps
0.92 0.95 0.98 V
VCCR_GXB[L1][C,D] Receiver power supply Chip-to-chip ≤
12.5 Gbps
Or
Backplane ≤
6.6 Gbps
1.0 1.03 1.06 V
Chip-to-chip ≤
11.3 Gbps
0.92 0.95 0.98 V
VCCH_GXBL Transceiver output buffer power supply 1.710 1.8 1.890 V
Related Information
Transceiver Performance for Intel Cyclone 10 GX Devices on page 21
Intel Cyclone 10 GX Pin Connection Guidelines
DC Characteristics
Supply Current and Power Consumption
Intel offers two ways to estimate power for your design—the Excel-based Early Power Estimator (EPE) and the Intel Quartus®
Prime Power Analyzer feature.
Use the Excel-based EPE before you start your design to estimate the supply current for your design. The EPE provides a
magnitude estimate of the device power because these currents vary greatly with the usage of the resources.
The Intel Quartus Prime Power Analyzer provides better quality estimates based on the specifics of the design after you
complete place-and-route. The Power Analyzer can apply a combination of user-entered, simulation-derived, and estimated
signal activities that, when combined with detailed circuit models, yield very accurate power estimates.
(14) This value describes the budget for the DC (static) power supply tolerance and does not include the dynamic tolerance requirements.
Refer to the PDN tool for the additional budget for the dynamic tolerance requirements.
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Related Information
Early Power Estimator User Guide
Provides more information about power estimation tools.
Power Analysis and Optimization User Guide: Intel Quartus Prime Pro Edition
Provides more information about power estimation tools.
I/O Pin Leakage Current
Table 5. I/O Pin Leakage Current for Intel Cyclone 10 GX Devices
If VO = VCCIO to VCCIOMAX, 300 μA of leakage current per I/O is expected.
Symbol Description Condition Min Max Unit
IIInput pin VI = 0 V to VCCIOMAX –80 80 µA
IOZ Tri-stated I/O pin VO = 0 V to VCCIOMAX –80 80 µA
Bus Hold Specifications
The bus-hold trip points are based on calculated input voltages from the JEDEC standard.
Table 6. Bus Hold Parameters for Intel Cyclone 10 GX Devices
Parameter Symbol Condition VCCIO (V) Unit
1.2 1.5 1.8 2.5 3.0
Min Max Min Max Min Max Min Max Min Max
Bus-hold, low,
sustaining
current
ISUSL VIN > VIL
(max)
8 (15),
26 (16)
12 (15),
32 (16)
30 (15),
55 (16)
60 70 µA
Bus-hold, high,
sustaining
current
ISUSH VIN < VIH
(min)
–8 (15),
–26 (16)
–12 (15),
–32 (16)
–30 (15),
–55 (16)
–60 –70 µA
continued...
(15) This value is only applicable for LVDS I/O bank.
(16) This value is only applicable for 3 V I/O bank.
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Parameter Symbol Condition VCCIO (V) Unit
1.2 1.5 1.8 2.5 3.0
Min Max Min Max Min Max Min Max Min Max
Bus-hold, low,
overdrive current
IODL 0 V < VIN <
VCCIO
125 175 200 300 500 µA
Bus-hold, high,
overdrive current
IODH 0 V < VIN <
VCCIO
–125 –175 –200 –300 –500 µA
Bus-hold trip
point
VTRIP 0.3 0.9 0.38 1.13 0.68 1.07 0.70 1.7 0.8 2 V
OCT Calibration Accuracy Specifications
If you enable on-chip termination (OCT) calibration, calibration is automatically performed at power up for I/Os connected to
the calibration block.
Table 7. OCT Calibration Accuracy Specifications for Intel Cyclone 10 GX Devices
Calibration accuracy for the calibrated on-chip series termination (RS OCT) and on-chip parallel termination (RT OCT) are applicable at the moment of calibration.
When process, voltage, and temperature (PVT) conditions change after calibration, the tolerance may change.
Symbol Description Condition (V) Resistance Tolerance Unit
–E5, –I5 –E6, –I6
25-Ω and 50-Ω RSInternal series termination with calibration (25-
Ω and 50-Ω setting)
VCCIO = 1.8, 1.5, 1.2 ± 15 ± 15 %
34-Ω and 40-Ω RSInternal series termination with calibration (34-
Ω and 40-Ω setting)
VCCIO = 1.5, 1.25, 1.2 ± 15 ± 15 %
VCCIO = 1.35 ± 20 ± 20 %
48-Ω, 60-Ω, 80-Ω, and 120-Ω
RS
Internal series termination with calibration (48-
Ω, 60-Ω, 80-Ω, and 120-Ω setting)
VCCIO = 1.2 ± 15 ± 15 %
240-Ω RSInternal series termination with calibration
(240-Ω setting)
VCCIO = 1.2 ± 20 ± 20 %
30-Ω RTInternal parallel termination with calibration
(30-Ω setting)
VCCIO = 1.5, 1.35, 1.25 –10 to +40 –10 to +40 %
34-Ω, 48-Ω, 80-Ω, and 240-Ω
RT
Internal parallel termination with calibration
(34-Ω, 48-Ω, 80-Ω, and 240-Ω setting)
VCCIO = 1.2 ± 15 ± 15 %
continued...
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Symbol Description Condition (V) Resistance Tolerance Unit
–E5, –I5 –E6, –I6
40-Ω, 60-Ω, and 120-Ω RTInternal parallel termination with calibration
(40-Ω, 60-Ω, and 120-Ω setting)
VCCIO = 1.5, 1.35, 1.25, 1.2 –10 to +40 –10 to +40 %
VCCIO = 1.2 (17) ± 15 ± 15 %
80-Ω RTInternal parallel termination with calibration
(80-Ω setting)
VCCIO = 1.2 ± 15 ± 15 %
Related Information
I/O Standards Support in Intel Cyclone 10 GX Devices
OCT Without Calibration Resistance Tolerance Specifications
Table 8. OCT Without Calibration Resistance Tolerance Specifications for Intel Cyclone 10 GX Devices
This table lists the Intel Cyclone 10 GX OCT without calibration resistance tolerance to PVT changes.
Symbol Description Condition (V) Resistance Tolerance Unit
–E5, –I5 –E6, –I6
25-Ω and 50-Ω RSInternal series termination without calibration
(25-Ω and 50-Ω setting)
VCCIO = 3.0, 2.5 ± 40 ± 40 %
VCCIO = 1.8, 1.5, 1.2 ± 50 ± 50 %
34-Ω and 40-Ω RSInternal series termination without calibration
(34-Ω and 40-Ω setting)
VCCIO = 1.5, 1.35, 1.25, 1.2 ± 50 ± 50 %
48-Ω and 60-Ω RSInternal series termination without calibration
(48-Ω and 60-Ω setting)
VCCIO = 1.2 ± 50 ± 50 %
120-Ω RsInternal series termination without calibration
(120-Ω setting)
VCCIO = 1.2 ± 50 ± 50 %
100-Ω RDInternal differential termination
(100-Ω setting)
VCCIO = 1.8 ± 35 ± 40 %
(17) Only applicable to POD12 I/O standard.
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Pin Capacitance
Table 9. Pin Capacitance for Intel Cyclone 10 GX Devices
Symbol Description Maximum Unit
CIO_COLUMN Input capacitance on column I/O pins 2.5 pF
COUTFB Input capacitance on dual-purpose clock output/feedback pins 2.5 pF
Internal Weak Pull-Up and Weak Pull-Down Resistor
All I/O pins, except configuration, test, and JTAG pins, have an option to enable weak pull-up. The weak pull-down feature is
only available for the pins as described in the Internal Weak Pull-Down Resistor Values for Intel Cyclone 10 GX Devices table.
Table 10. Internal Weak Pull-Up Resistor Values for Intel Cyclone 10 GX Devices
Symbol Description Condition (V) (18) Value (19) Unit
RPU Value of the I/O pin pull-up resistor before and during configuration, as
well as user mode if you have enabled the programmable pull-up
resistor option.
VCCIO = 3.0 ±5% 25
VCCIO = 2.5 ±5% 25
VCCIO = 1.8 ±5% 25
VCCIO = 1.5 ±5% 25
VCCIO = 1.35 ±5% 25
VCCIO = 1.25 ±5% 25
VCCIO = 1.2 ±5% 25
(18) Pin pull-up resistance values may be lower if an external source drives the pin higher than VCCIO.
(19) Valid with ±25% tolerances to cover changes over PVT.
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Table 11. Internal Weak Pull-Down Resistor Values for Intel Cyclone 10 GX Devices
Pin Name Description Condition (V) Value (19) Unit
nIO_PULLUP Dedicated input pin that determines the internal pull-ups on
user I/O pins and dual-purpose I/O pins.
VCC = 0.9 ±3.33% 25 kΩ
TCK Dedicated JTAG test clock input pin. VCCPGM = 1.8 ±5 % 25 kΩ
VCCPGM = 1.5 ±5% 25 kΩ
VCCPGM = 1.2 ±5% 25 kΩ
MSEL[0:2] Configuration input pins that set the configuration scheme
for the FPGA device.
VCCPGM = 1.8 ±5% 25 kΩ
VCCPGM = 1.5 ±5% 25 kΩ
VCCPGM = 1.2 ±5% 25 kΩ
Related Information
Intel Cyclone 10 GX Device Family Pin Connection Guidelines
Provides more information about the pins that support internal weak pull-up and internal weak pull-down features.
I/O Standard Specifications
Tables in this section list the input voltage (VIH and VIL), output voltage (VOH and VOL), and current drive characteristics (IOH
and IOL) for various I/O standards supported by Intel Cyclone 10 GX devices.
For minimum voltage values, use the minimum VCCIO values. For maximum voltage values, use the maximum VCCIO values.
You must perform timing closure analysis to determine the maximum achievable frequency for general purpose I/O standards.
Related Information
Recommended Operating Conditions on page 7
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Single-Ended I/O Standards Specifications
Table 12. Single-Ended I/O Standards Specifications for Intel Cyclone 10 GX Devices
I/O Standard VCCIO (V) VIL (V) VIH (V) VOL (V) VOH (V) IOL (20)
(mA)
IOH (20)
(mA)
Min Typ Max Min Max Min Max Max Min
3.0-V LVTTL 2.85 3 3.15 –0.3 0.8 1.7 3.3 0.4 2.4 2 –2
3.0-V LVCMOS 2.85 3 3.15 –0.3 0.8 1.7 3.3 0.2 VCCIO – 0.2 0.1 –0.1
2.5 V 2.375 2.5 2.625 –0.3 0.7 1.7 3.3 0.4 2 1 –1
1.8 V 1.71 1.8 1.89 –0.3 0.35 × VCCIO 0.65 × VCCIO VCCIO + 0.3 0.45 VCCIO – 0.45 2 –2
1.5 V 1.425 1.5 1.575 –0.3 0.35 × VCCIO 0.65 × VCCIO VCCIO + 0.3 0.25 × VCCIO 0.75 × VCCIO 2 –2
1.2 V 1.14 1.2 1.26 –0.3 0.35 × VCCIO 0.65 × VCCIO VCCIO + 0.3 0.25 × VCCIO 0.75 × VCCIO 2 –2
Single-Ended SSTL, HSTL, and HSUL I/O Reference Voltage Specifications
Table 13. Single-Ended SSTL, HSTL, and HSUL I/O Reference Voltage Specifications for Intel Cyclone 10 GX Devices
I/O Standard VCCIO (V) VREF (V) VTT (V)
Min Typ Max Min Typ Max Min Typ Max
SSTL-18
Class I, II
1.71 1.8 1.89 0.833 0.9 0.969 VREF – 0.04 VREF VREF + 0.04
SSTL-15
Class I, II
1.425 1.5 1.575 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO
SSTL-135/ SSTL-135
Class I, II
1.283 1.35 1.418 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO
SSTL-125/ SSTL-125
Class I, II
1.19 1.25 1.31 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO
SSTL-12/ SSTL-12
Class I, II
1.14 1.2 1.26 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO
continued...
(20) To meet the IOL and IOH specifications, you must set the current strength settings accordingly. For example, to meet the 3.0-V LVTTL
specification (2 mA), you should set the current strength settings to 2 mA. Setting at lower current strength may not meet the IOL and
IOH specifications in the datasheet.
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I/O Standard VCCIO (V) VREF (V) VTT (V)
Min Typ Max Min Typ Max Min Typ Max
HSTL-18
Class I, II
1.71 1.8 1.89 0.85 0.9 0.95 VCCIO/2
HSTL-15
Class I, II
1.425 1.5 1.575 0.68 0.75 0.9 VCCIO/2
HSTL-12
Class I, II
1.14 1.2 1.26 0.47 × VCCIO 0.5 × VCCIO 0.53 × VCCIO VCCIO/2
HSUL-12 1.14 1.2 1.3 0.49 × VCCIO 0.5 × VCCIO 0.51 × VCCIO
POD12 1.16 1.2 1.24 0.69 × VCCIO 0.7 × VCCIO 0.71 × VCCIO VCCIO
Single-Ended SSTL, HSTL, and HSUL I/O Standards Signal Specifications
Table 14. Single-Ended SSTL, HSTL, and HSUL I/O Standards Signal Specifications for Intel Cyclone 10 GX Devices
I/O Standard VIL(DC) (V) VIH(DC) (V) VIL(AC) (V) VIH(AC) (V) VOL (V) VOH (V) IOL (21)
(mA)
IOH (21)
(mA)
Min Max Min Max Max Min Max Min
SSTL-18 Class I –0.3 VREF –0.125 VREF + 0.125 VCCIO + 0.3 VREF – 0.25 VREF + 0.25 VTT – 0.603 VTT + 0.603 6.7 –6.7
SSTL-18 Class
II
–0.3 VREF –0.125 VREF + 0.125 VCCIO + 0.3 VREF – 0.25 VREF + 0.25 0.28 VCCIO –0.28 13.4 –13.4
SSTL-15 Class I VREF – 0.1 VREF + 0.1 VREF – 0.175 VREF + 0.175 0.2 × VCCIO 0.8 × VCCIO 8 –8
SSTL-15 Class
II
VREF – 0.1 VREF + 0.1 VREF – 0.175 VREF + 0.175 0.2 × VCCIO 0.8 × VCCIO 16 –16
SSTL-135/
SSTL-135
Class I, II
VREF – 0.09 VREF + 0.09 VREF – 0.16 VREF + 0.16 0.2 × VCCIO 0.8 × VCCIO
SSTL-125/
SSTL-125
Class I, II
VREF – 0.09 VREF + 0.09 VREF – 0.15 VREF + 0.15 0.2 × VCCIO 0.8 × VCCIO
continued...
(21) To meet the IOL and IOH specifications, you must set the current strength settings accordingly. For example, to meet the SSTL15CI
specification (8 mA), you should set the current strength settings to 8 mA. Setting at lower current strength may not meet the IOL and
IOH specifications in the datasheet.
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I/O Standard VIL(DC) (V) VIH(DC) (V) VIL(AC) (V) VIH(AC) (V) VOL (V) VOH (V) IOL (21)
(mA)
IOH (21)
(mA)
Min Max Min Max Max Min Max Min
SSTL-12/
SSTL-12
Class I, II
VREF – 0.10 VREF + 0.10 VREF – 0.15 VREF + 0.15 0.2 × VCCIO 0.8 × VCCIO
HSTL-18 Class I VREF –0.1 VREF + 0.1 VREF – 0.2 VREF + 0.2 0.4 VCCIO – 0.4 8 –8
HSTL-18 Class
II
VREF – 0.1 VREF + 0.1 VREF – 0.2 VREF + 0.2 0.4 VCCIO – 0.4 16 –16
HSTL-15 Class I VREF – 0.1 VREF + 0.1 VREF – 0.2 VREF + 0.2 0.4 VCCIO – 0.4 8 –8
HSTL-15 Class
II
VREF – 0.1 VREF + 0.1 VREF – 0.2 VREF + 0.2 0.4 VCCIO –0.4 16 –16
HSTL-12 Class I –0.15 VREF – 0.08 VREF + 0.08 VCCIO + 0.15 VREF – 0.15 VREF + 0.15 0.25 × VCCIO 0.75 × VCCIO 8 –8
HSTL-12 Class
II
–0.15 VREF – 0.08 VREF + 0.08 VCCIO + 0.15 VREF – 0.15 VREF + 0.15 0.25 × VCCIO 0.75 × VCCIO 16 –16
HSUL-12 VREF – 0.13 VREF + 0.13 VREF – 0.22 VREF + 0.22 0.1 × VCCIO 0.9 × VCCIO
POD12 –0.15 VREF – 0.08 VREF + 0.08 VCCIO + 0.15 VREF – 0.15 VREF + 0.15 (0.7 – 0.15) ×
VCCIO
(0.7 + 0.15) ×
VCCIO
Differential SSTL I/O Standards Specifications
Table 15. Differential SSTL I/O Standards Specifications for Intel Cyclone 10 GX Devices
I/O Standard VCCIO (V) VSWING(DC) (V) VSWING(AC) (V) VIX(AC) (V)
Min Typ Max Min Max Min Max Min Typ Max
SSTL-18 Class
I, II
1.71 1.8 1.89 0.25 VCCIO + 0.6 0.5 VCCIO + 0.6 VCCIO/2 – 0.175 VCCIO/2
+ 0.175
SSTL-15 Class
I, II
1.425 1.5 1.575 0.2 (22)2(VIH(AC)
VREF)
2(VREF
VIL(AC))
VCCIO/2 – 0.15 VCCIO/2 + 0.15
continued...
(21) To meet the IOL and IOH specifications, you must set the current strength settings accordingly. For example, to meet the SSTL15CI
specification (8 mA), you should set the current strength settings to 8 mA. Setting at lower current strength may not meet the IOL and
IOH specifications in the datasheet.
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I/O Standard VCCIO (V) VSWING(DC) (V) VSWING(AC) (V) VIX(AC) (V)
Min Typ Max Min Max Min Max Min Typ Max
SSTL-135/
SSTL-135
Class I, II
1.283 1.35 1.45 0.18 (22)2(VIH(AC)
VREF)
2(VIL(AC)
VREF)
VCCIO/2 – 0.15 VCCIO/2 VCCIO/2 + 0.15
SSTL-125/
SSTL-125
Class I, II
1.19 1.25 1.31 0.18 (22)2(VIH(AC)
VREF)
2(VIL(AC)
VREF)
VCCIO/2 – 0.15 VCCIO/2 VCCIO/2 + 0.15
SSTL-12/
SSTL-12
Class I, II
1.14 1.2 1.26 0.16 (22)2(VIH(AC)
VREF)
2(VIL(AC)
VREF)
VREF – 0.15 VCCIO/2 VREF + 0.15
POD12 1.16 1.2 1.24 0.16 0.3 VREF – 0.08 VREF + 0.08
Differential HSTL and HSUL I/O Standards Specifications
Table 16. Differential HSTL and HSUL I/O Standards Specifications for Intel Cyclone 10 GX Devices
I/O Standard VCCIO (V) VDIF(DC) (V) VDIF(AC) (V) VIX(AC) (V) VCM(DC) (V)
Min Typ Max Min Max Min Max Min Typ Max Min Typ Max
HSTL-18 Class
I, II
1.71 1.8 1.89 0.2 0.4 0.78 1.12 0.78 1.12
HSTL-15 Class
I, II
1.425 1.5 1.575 0.2 0.4 0.68 0.9 0.68 0.9
HSTL-12 Class
I, II
1.14 1.2 1.26 0.16 VCCIO
+ 0.3
0.3 VCCIO
+ 0.48
0.5 ×
VCCIO
0.4 ×
VCCIO
0.5 ×
VCCIO
0.6 ×
VCCIO
HSUL-12 1.14 1.2 1.3 2(VIH(DC)
VREF)
2(VREF
VIH(DC))
2(VIH(AC)
VREF)
2(VREF
VIH(AC))
0.5 ×
VCCIO
0.12
0.5 ×
VCCIO
0.5 ×
VCCIO
+0.12
0.4 ×
VCCIO
0.5 ×
VCCIO
0.6 ×
VCCIO
(22) The maximum value for VSWING(DC) is not defined. However, each single-ended signal needs to be within the respective single-ended
limits (VIH(DC) and VIL(DC)).
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Differential I/O Standards Specifications
Table 17. Differential I/O Standards Specifications for Intel Cyclone 10 GX Devices
Differential inputs are powered by VCCPT which requires 1.8 V.
I/O Standard VCCIO (V) VID (mV) (23) VICM(DC) (V) VOD (V) (24) VOCM (V) (24)
Min Typ Max Min Condition Max Min Condition Max Min Typ Max Min Typ Max
LVDS (25) 1.71 1.8 1.89 100 VCM =
1.25 V
0 DMAX
≤700 Mbps
1.85 0.247 0.6 1.125 1.25 1.375
1 DMAX
>700 Mbps
1.6
RSDS (HIO) (26) 1.71 1.8 1.89 100 VCM =
1.25 V
0.3 1.4 0.1 0.2 0.6 0.5 1.2 1.4
Mini-LVDS
(HIO) (27)
1.71 1.8 1.89 200 600 0.4 1.325 0.25 0.6 1 1.2 1.4
LVPECL (28) 1.71 1.8 1.89 300 0.6 DMAX
≤700 Mbps
1.7
1 DMAX
>700 Mbps
1.6
Related Information
Transceiver Specifications for Intel Cyclone 10 GX Devices on page 22
Provides the specifications for transmitter, receiver, and reference clock I/O pin.
(23) The minimum VID value is applicable over the entire common mode range, VCM.
(24) RL range: 90 ≤ RL ≤ 110 Ω.
(25) For optimized LVDS receiver performance, the receiver voltage input range must be within 1.0 V to 1.6 V for data rates above 700
Mbps and 0 V to 1.85 V for data rates below 700 Mbps.
(26) For optimized RSDS receiver performance, the receiver voltage input range must be within 0.25 V to 1.45 V.
(27) For optimized Mini-LVDS receiver performance, the receiver voltage input range must be within 0.3 V to 1.425 V.
(28) For optimized LVPECL receiver performance, the receiver voltage input range must be within 0.85 V to 1.75 V for data rates above
700 Mbps and 0.45 V to 1.95 V for data rates below 700 Mbps.
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20
Switching Characteristics
This section provides the performance characteristics of Intel Cyclone 10 GX core and periphery blocks for extended grade
devices.
Transceiver Performance Specifications
Transceiver Performance for Intel Cyclone 10 GX Devices
Table 18. Transmitter and Receiver Data Rate Performance
Symbol/Description Condition Datarate Unit
Chip-to-Chip (29)
Maximum data rate
VCCR_GXB = VCCT_GXB = 1.03 V 12.5 Gbps
Maximum data rate
VCCR_GXB = VCCT_GXB = 0.95 V 11.3 Gbps
Minimum Data Rate 1.0 (30)Gbps
Backplane
Maximum data rate
VCCR_GXB = VCCT_GXB = 1.03 V
6.6 Gbps
Minimum Data Rate 1.0 (30)Gbps
Table 19. ATX PLL and Fractional PLL (fPLL) Performance
Symbol/Description Condition Frequency Unit
Supported Output Frequency
Maximum Frequency 6.25 GHz
Minimum Frequency 500 MHz
(29) Chip-to-chip links are applications with short reach channels.
(30) Intel Cyclone 10 GX transceivers can support data rates down to 125 Mbps with over sampling. You must create your own over
sampling logic.
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Table 20. CMU PLL Performance
Symbol/Description Condition Frequency Unit
Supported Output Frequency
Maximum Frequency 5.15625 GHz
Minimum Frequency 2450 MHz
Related Information
Transceiver Power Supply Operating Conditions on page 9
High-Speed Serial Transceiver-Fabric Interface Performance for Intel Cyclone 10 GX Devices
Table 21. High-Speed Serial Transceiver-Fabric Interface Performance for Intel Cyclone 10 GX Devices
The frequencies listed are the maximum frequencies.
Symbol/Description Condition (V) Core Speed Grade Unit
-5 -6
20-bit interface - FIFO VCC = 0.9 400 400 MHz
20-bit interface - Registered VCC = 0.9 400 400 MHz
32-bit interface - FIFO VCC = 0.9 404 335 MHz
32-bit interface - Registered VCC = 0.9 404 335 MHz
64-bit interface - FIFO VCC = 0.9 234 222 MHz
64-bit interface - Registered VCC = 0.9 234 222 MHz
Transceiver Specifications for Intel Cyclone 10 GX Devices
Table 22. Reference Clock Specifications
Symbol/Description Condition Min Typ Max Unit
Supported I/O Standards Dedicated reference clock pin CML, Differential LVPECL, LVDS, and HCSL (31)
RX pin as a reference clock CML, Differential LVPECL, and LVDS
continued...
(31) HCSL is only supported for PCIe.
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Symbol/Description Condition Min Typ Max Unit
Input Reference Clock Frequency
(CMU PLL)
61 800 MHz
Input Reference Clock Frequency
(ATX PLL)
100 800 MHz
Input Reference Clock Frequency
(fPLL PLL)
25 (32) / 50 800 MHz
Rise time 20% to 80% 400 ps
Fall time 80% to 20% 400 ps
Duty cycle 45 55 %
Spread-spectrum modulating clock frequency PCIe 30 33 kHz
Spread-spectrum downspread PCIe 0 to –0.5 %
On-chip termination resistors 100 Ω
Absolute VMAX Dedicated reference clock pin 1.6 V
RX pin as a reference clock 1.2 V
Absolute VMIN –0.4 V
Peak-to-peak differential input voltage 200 1600 mV
VICM (AC coupled) VCCR_GXB = 0.95 V 0.95 V
VCCR_GXB = 1.03 V 1.03 V
VICM (DC coupled) HCSL I/O standard for PCIe
reference clock
250 550 mV
Transmitter REFCLK Phase Noise (622 MHz) (33) 100 Hz –70 dBc/Hz
1 kHz –90 dBc/Hz
continued...
(32) 25 MHz is for HDMI applications only.
(33) To calculate the REFCLK phase noise requirement at frequencies other than 622 MHz, use the following formula: REFCLK phase noise
at f (MHz) = REFCLK phase noise at 622 MHz + 20*log(f/622).
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Symbol/Description Condition Min Typ Max Unit
10 kHz –100 dBc/Hz
100 kHz –110 dBc/Hz
≥ 1 MHz –120 dBc/Hz
Transmitter REFCLK Phase Jitter (100 MHz) 1.5 MHz to 100 MHz (PCIe) 4.2 ps (rms)
RREF 2.0 k ±1% Ω
Maximum rate of change of the reference clock
frequency
TSSC-MAX-PERIOD-SLEW (34)
Max SSC df/dt
0.75 ps/UI
Table 23. Transceiver Clocks Specifications
Symbol/Description Condition Min Typ Max Unit
CLKUSR pin for transceiver
calibration Transceiver Calibration 100 125 MHz
reconfig_clk Reconfiguration interface 100 125 MHz
Table 24. Transceiver Clock Network Maximum Data Rate Specifications
Clock Network Maximum Performance Channel Span Unit
ATX fPLL CMU
x1 12.5 12.5 10.3125 6 channels in a single
bank
Gbps
x6 12.5 12.5 N/A 6 channels in a single
bank
Gbps
PLL feedback
compensation mode
12.5 12.5 N/A Side-wide Gbps
xN at 1.03 V VCCR_GXB/
VCCT_GXB
12.5 12.5 N/A Side-wide Gbps
xN at 0.95 V VCCR_GXB/
VCCT_GXB
10.5 10.5 N/A Side-wide Gbps
(34) Defined for worst case spread spectrum clock (SSC) modulation profile, such as Lexmark.
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24
Table 25. Receiver Specifications
Symbol/Description Condition Min Typ Max Unit
Supported I/O Standards High Speed Differential I/O, CML , Differential LVPECL , and LVDS(35)
Absolute VMAX for a
receiver pin (36) 1.2 V
Absolute VMIN for a
receiver pin (37) -0.4 V
Maximum peak-to-peak
differential input voltage
VID (diff p-p) before device
configuration
1.6 V
Maximum peak-to-peak
differential input voltage
VID (diff p-p) after device
configuration
VCCR_GXB = 0.95 V 2.4 V
VCCR_GXB = 1.03 V 2.0 V
Minimum differential eye
opening at receiver serial
input pins (38)
50 mV
Differential on-chip
termination resistors
85-Ω setting 85 ± 30% Ω
100-Ω setting 100 ± 30% Ω
VICM (AC and DC coupled)
(39)
VCCR_GXB = 0.95 V 600 mV
VCCR_GXB = 1.03 V 700 mV
continued...
(35) CML, Differential LVPECL, and LVDS are only used on AC coupled links.
(36) The device cannot tolerate prolonged operation at this absolute maximum.
(37) The device cannot tolerate prolonged operation at this absolute minimum.
(38) The differential eye opening specification at the receiver input pins assumes that Receiver Equalization is disabled. If you enable
Receiver Equalization, the receiver circuitry can tolerate a lower minimum eye opening, depending on the equalization level.
(39) Intel Cyclone 10 GX devices support DC coupling to other Intel Cyclone 10 GX devices and other devices with a transmitter that has
matching common mode voltage.
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25
Symbol/Description Condition Min Typ Max Unit
tLTR(40) 10 µs
tLTD(41) 4 µs
tLTD_manual(42) 4 µs
tLTR_LTD_manual(43) 15 µs
Run Length 200 UI
CDR PPM tolerance
PCIe-only -300 300 PPM
All other protocols -1000 1000 PPM
Programmable DC Gain Setting = 0-4 0 10 dB
Programmable AC Gain at
High Gain mode and Data
Rate ≤ 6 Gbps
Setting = 0-28
VCCR_GXB = 0.95 V 0 19 dB
Setting = 0-28
VCCR_GXB = 1.03 V 0 21 dB
Table 26. Transmitter Specifications
Symbol/Description Condition Min Typ Max Unit
Supported I/O Standards High Speed Differential I/O (44)
Differential on-chip
termination resistors 85-Ω setting 85 ± 20% Ω
continued...
(40) tLTR is the time required for the receive CDR to lock to the input reference clock frequency after coming out of reset.
(41) tLTD is time required for the receiver CDR to start recovering valid data after the rx_is_lockedtodata signal goes high.
(42) tLTD_manual is the time required for the receiver CDR to start recovering valid data after the rx_is_lockedtodata signal goes high
when the CDR is functioning in the manual mode.
(43) tLTR_LTD_manual is the time the receiver CDR must be kept in lock to reference (LTR) mode after the rx_is_lockedtoref signal goes
high when the CDR is functioning in the manual mode.
(44) High Speed Differential I/O is the dedicated I/O standard for the transmitter in Intel Cyclone 10 GX transceivers.
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26
Symbol/Description Condition Min Typ Max Unit
100-Ω setting 100 ± 20% Ω
VOCM (AC coupled)
VCCT_GXB = 0.95 V 450 mV
VCCT_GXB = 1.03 V 500 mV
VOCM (DC coupled)
VCCT_GXB = 0.95 V 450 mV
VCCT_GXB = 1.03 V 500 mV
Rise time (45)20% to 80% 20 130 ps
Fall time (45)80% to 20% 20 130 ps
Intra-differential pair skew
TX VCM = 0.5 V and slew
rate setting of
SLEW_R5 (46)
15 ps
Table 27. Typical Transmitter VOD Settings
Symbol VOD Setting VOD-to-VCCT_GXB Ratio
VOD differential value = VOD-to-VCCT_GXB ratio x VCCT_GXB
31 1.00
30 0.97
29 0.93
28 0.90
27 0.87
26 0.83
25 0.80
24 0.77
23 0.73
22 0.70
continued...
(45) The Intel Quartus Prime software automatically selects the appropriate slew rate depending on the design configurations.
(46) SLEW_R1 is the slowest and SLEW_R5 is the fastest. SLEW_R6 and SLEW_R7 are not used.
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Symbol VOD Setting VOD-to-VCCT_GXB Ratio
21 0.67
20 0.63
19 0.60
18 0.57
17 0.53
16 0.50
15 0.47
14 0.43
13 0.40
12 0.37
Table 28. Transmitter Channel-to-channel Skew Specifications
Mode Channel Span Maximum Skew Unit
x6 Clock Up to 6 channels in one bank 61 ps
xN Clock Within 2 banks 230 ps
PLL Feedback Compensation (47), (48)Side-wide 1600 ps
Related Information
PLLs and Clock Networks
(47) refclk is set to 125 MHz during the test.
(48) You can reduce the lane-to-lane skew by increasing the reference clock frequency.
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28
Core Performance Specifications
Clock Tree Specifications
Table 29. Clock Tree Performance for Intel Cyclone 10 GX Devices
Parameter Performance (All Speed Grades) Unit
Global clock, regional clock, and small periphery clock 644 MHz
Large periphery clock 525 MHz
PLL Specifications
Fractional PLL Specifications
Table 30. Fractional PLL Specifications for Intel Cyclone 10 GX Devices
Symbol Parameter Condition Min Typ Max Unit
fIN Input clock frequency 30 800 (49) MHz
fINPFD Input clock frequency to the phase
frequency detector (PFD)
30 700 MHz
fCASC_INPFD Input clock frequency to the PFD of
destination cascade PLL
30 60 MHz
fVCO PLL voltage-controlled oscillator (VCO)
operating range
6 12.5 GHz
tEINDUTY Input clock duty cycle 45 55 %
fOUT Output frequency for internal global or
regional clock
644 MHz
fDYCONFIGCLK Dynamic configuration clock for
reconfig_clk 100 MHz
continued...
(49) This specification is limited by the I/O maximum frequency. The maximum achievable I/O frequency is different for each I/O standard
and is depends on design and system specific factors. Ensure proper timing closure in your design and perform HSPICE/IBIS
simulations based on your specific design and system setup to determine the maximum achievable frequency in your system.
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Symbol Parameter Condition Min Typ Max Unit
tLOCK Time required to lock from end-of-device
configuration or deassertion of
pll_powerdown
1 ms
tDLOCK Time required to lock dynamically (after
switchover or reconfiguring any non-post-
scale counters/delays)
1 ms
fCLBW PLL closed-loop bandwidth 0.3 4 MHz
tPLL_PSERR Accuracy of PLL phase shift 50 ps
tARESET Minimum pulse width on the
pll_powerdown signal
10 ns
tINCCJ (50)(51) Input clock cycle-to-cycle jitter FREF ≥ 100 MHz 0.13 UI (p-p)
FREF < 100 MHz 650 ps (p-p)
tOUTPJ (52)Period jitter for clock output FOUT ≥ 100 MHz 600 ps (p-p)
FOUT < 100 MHz 60 mUI (p-p)
tOUTCCJ (52)Cycle-to-cycle jitter for clock output FOUT ≥ 100 MHz 600 ps (p-p)
FOUT < 100 MHz 60 mUI (p-p)
dKBIT Bit number of Delta Sigma Modulator (DSM) 32 bit
Related Information
Memory Output Clock Jitter Specifications on page 43
Provides more information about the external memory interface clock output jitter specifications.
(50) A high input jitter directly affects the PLL output jitter. To have low PLL output clock jitter, you must provide a clean clock source with
jitter < 120 ps.
(51) FREF is fIN/N, specification applies when N = 1.
(52) External memory interface clock output jitter specifications use a different measurement method, which are available in Memory
Output Clock Jitter Specification for Intel Cyclone 10 GX Devices table.
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30
I/O PLL Specifications
Table 31. I/O PLL Specifications for Intel Cyclone 10 GX Devices
Symbol Parameter Condition Min Typ Max Unit
fIN Input clock frequency –5 speed grade 10 700 (53)MHz
–6 speed grade 10 650 (53)MHz
fINPFD Input clock frequency to the PFD 10 325 MHz
fCASC_INPFD Input clock frequency to the PFD of destination
cascade PLL
10 60 MHz
fVCO PLL VCO operating range –5 speed grade 600 1434 MHz
–6 speed grade 600 1250 MHz
fCLBW PLL closed-loop bandwidth 0.1 8 MHz
tEINDUTY Input clock or external feedback clock input
duty cycle
40 60 %
fOUT Output frequency for internal global or regional
clock (C counter)
–5, –6 speed grade 644 MHz
fOUT_EXT Output frequency for external clock output –5 speed grade 720 MHz
–6 speed grade 650 MHz
tOUTDUTY Duty cycle for dedicated external clock output
(when set to 50%)
45 50 55 %
tFCOMP External feedback clock compensation time 10 ns
fDYCONFIGCLK Dynamic configuration clock for mgmt_clk and
scanclk
100 MHz
tLOCK Time required to lock from end-of-device
configuration or deassertion of areset 1 ms
continued...
(53) This specification is limited by the I/O maximum frequency. The maximum achievable I/O frequency is different for each I/O standard
and is depends on design and system specific factors. Ensure proper timing closure in your design and perform HSPICE/IBIS
simulations based on your specific design and system setup to determine the maximum achievable frequency in your system.
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Symbol Parameter Condition Min Typ Max Unit
tDLOCK Time required to lock dynamically (after
switchover or reconfiguring any non-post-scale
counters/delays)
1 ms
tPLL_PSERR Accuracy of PLL phase shift ±50 ps
tARESET Minimum pulse width on the areset signal 10 ns
tINCCJ (54)(55) Input clock cycle-to-cycle jitter FREF ≥ 100 MHz 0.15 UI (p-p)
FREF < 100 MHz 750 ps (p-p)
tOUTPJ_DC Period jitter for dedicated clock output FOUT ≥ 100 MHz 175 ps (p-p)
FOUT < 100 MHz 17.5 mUI (p-p)
tOUTCCJ_DC Cycle-to-cycle jitter for dedicated clock output FOUT ≥ 100 MHz 175 ps (p-p)
FOUT < 100 MHz 17.5 mUI (p-p)
tOUTPJ_IO (56)Period jitter for clock output on the regular I/O FOUT ≥ 100 MHz 600 ps (p-p)
FOUT < 100 MHz 60 mUI (p-p)
tOUTCCJ_IO (56)Cycle-to-cycle jitter for clock output on the
regular I/O
FOUT ≥ 100 MHz 600 ps (p-p)
FOUT < 100 MHz 60 mUI (p-p)
tCASC_OUTPJ_DC Period jitter for dedicated clock output in
cascaded PLLs
FOUT ≥ 100 MHz 175 ps (p-p)
FOUT < 100 MHz 17.5 mUI (p-p)
Related Information
Memory Output Clock Jitter Specifications on page 43
Provides more information about the external memory interface clock output jitter specifications.
(54) A high input jitter directly affects the PLL output jitter. To have low PLL output clock jitter, you must provide a clean clock source with
jitter < 120 ps.
(55) FREF is fIN/N, specification applies when N = 1.
(56) External memory interface clock output jitter specifications use a different measurement method, which are available in Memory
Output Clock Jitter Specification for Intel Cyclone 10 GX Devices table.
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DSP Block Specifications
Table 32. DSP Block Performance Specifications for Intel Cyclone 10 GX Devices
Mode Performance Unit
–E5 –I5 –E6 –I6
Fixed-point 18 × 19 multiplication mode 456 438 364 346 MHz
Fixed-point 27 × 27 multiplication mode 450 434 358 344 MHz
Fixed-point 18 × 18 multiplier adder mode 459 440 370 351 MHz
Fixed-point 18 × 18 multiplier adder summed with 36-bit input
mode
444 422 349 326 MHz
Fixed-point 18 × 19 systolic mode 459 440 370 351 MHz
Complex 18 × 19 multiplication mode 456 438 364 346 MHz
Floating point multiplication mode 447 427 347 326 MHz
Floating point adder or subtract mode 388 369 288 266 MHz
Floating point multiplier adder or subtract mode 386 368 290 270 MHz
Floating point multiplier accumulate mode 418 393 326 294 MHz
Floating point vector one mode 404 382 306 282 MHz
Floating point vector two mode 383 367 293 278 MHz
Memory Block Specifications
To achieve the maximum memory block performance, use a memory block clock that comes through global clock routing from
an on-chip PLL and set to 50% output duty cycle. Use the Intel Quartus Prime software to report timing for the memory block
clocking schemes.
When you use the error detection cyclical redundancy check (CRC) feature, there is no degradation in fMAX.
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Table 33. Memory Block Performance Specifications for Intel Cyclone 10 GX Devices
Memory Mode Performance
–E5, –I5 –E6 –I6 Unit
MLAB Single port, all supported widths (×16/×32) 570 490 490 MHz
Simple dual-port, all supported widths (×16/×32) 570 490 490 MHz
Simple dual-port with the read-during-write option set to
Old Data, all supported widths
400 330 330 MHz
ROM, all supported width (×16/×32) 570 490 490 MHz
M20K Block Single-port, all supported widths 625 530 510 MHz
Simple dual-port, all supported widths 625 530 510 MHz
Simple dual-port with the read-during-write option set to
Old Data, all supported widths
470 410 410 MHz
Simple dual-port with ECC enabled, 512 × 32 410 360 360 MHz
Simple dual-port with ECC and optional pipeline registers
enabled, 512 × 32
520 470 470 MHz
True dual port, all supported widths 600 480 480 MHz
ROM, all supported widths 625 530 510 MHz
Temperature Sensing Diode Specifications
Internal Temperature Sensing Diode Specifications
Table 34. Internal Temperature Sensing Diode Specifications for Intel Cyclone 10 GX Devices
Temperature Range Accuracy Offset Calibrated Option Sampling Rate Conversion Time Resolution
–40 to 100°C ±5°C No 1 MHz < 5 ms 10 bits
Related Information
Transfer Function for Internal TSD
Provides the transfer function for the internal TSD.
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External Temperature Sensing Diode Specifications
Table 35. External Temperature Sensing Diode Specifications for Intel Cyclone 10 GX Devices
The typical value is at 25°C.
Diode accuracy improves with lower injection current.
Absolute accuracy is dependent on third party external diode ADC and integration specifics.
Description Min Typ Max Unit
Ibias, diode source current 10 100 μA
Vbias, voltage across diode 0.3 0.9 V
Series resistance < 1 Ω
Diode ideality factor 1.03
Internal Voltage Sensor Specifications
Table 36. Internal Voltage Sensor Specifications for Intel Cyclone 10 GX Devices
Parameter Minimum Typical Maximum Unit
Resolution 6 Bit
Sampling rate 500 Ksps
Differential non-linearity (DNL) ±1 LSB
Integral non-linearity (INL) ±1 LSB
Gain error ±1 %
Offset error ±1 LSB
Input capacitance 20 pF
Clock frequency 0.1 11 MHz
Unipolar Input Mode Input signal range for Vsigp 0 1.5 V
Common mode voltage on Vsign 0 0.25 V
Input signal range for Vsigp – Vsign 0 1.25 V
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Periphery Performance Specifications
This section describes the periphery performance, high-speed I/O, and external memory interface.
Actual achievable frequency depends on design and system specific factors. Ensure proper timing closure in your design and
perform HSPICE/IBIS simulations based on your specific design and system setup to determine the maximum achievable
frequency in your system.
High-Speed I/O Specifications
Table 37. High-Speed I/O Specifications for Intel Cyclone 10 GX Devices
When serializer/deserializer (SERDES) factor J = 3 to 10, use the SERDES block.
For LVDS applications, you must use the PLLs in integer PLL mode.
You must calculate the leftover timing margin in the receiver by performing link timing closure analysis. You must consider the board skew margin, transmitter
channel-to-channel skew, and receiver sampling margin to determine the leftover timing margin.
The Intel Cyclone 10 GX devices support the following output standards using true LVDS output buffer types on all I/O banks:
True RSDS output standard with data rates of up to 360 Mbps
True mini-LVDS output standard with data rates of up to 400 Mbps
Symbol Condition –E5, –I5 –E6, –I6 Unit
Min Typ Max Min Typ Max
fHSCLK_in (input clock frequency) True Differential
I/O Standards
Clock boost factor
W = 1 to 40 (57)
10 700 10 625 MHz
fHSCLK_in (input clock frequency) Single Ended I/O
Standards
Clock boost factor
W = 1 to 40 (57)
10 625 10 525 MHz
fHSCLK_OUT (output clock frequency) 700 (58) 625 (58)MHz
continued...
(57) Clock Boost Factor (W) is the ratio between the input data rate and the input clock rate.
(58) This is achieved by using the PHY clock network.
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Symbol Condition –E5, –I5 –E6, –I6 Unit
Min Typ Max Min Typ Max
Transmitter True Differential
I/O Standards -
fHSDR (data rate)
(59)
SERDES factor J = 4 to 10
(60)(61)(62)
(62) 1434 (62) 1250 Mbps
SERDES factor
J = 3 (60)(61)(62)
(62) 1076 (62) 938 Mbps
SERDES factor J = 2, uses
DDR registers
(62) 275 (63) (62) 250 (63)Mbps
SERDES factor J = 1, uses
DDR registers
(62) 275 (63) (62) 250 (63)Mbps
tx Jitter - True
Differential I/O
Standards
Total jitter for data rate,
600 Mbps – 1.6 Gbps
200 250 ps
Total jitter for data rate,
< 600 Mbps
0.12 0.15 UI
tDUTY (64)TX output clock duty cycle
for Differential I/O
Standards
45 50 55 45 50 55 %
tRISE & & tFALL (61)
(65)
True Differential I/O
Standards
180 200 ps
continued...
(59) Requires package skew compensation with PCB trace length.
(60) The Fmax specification is based on the fast clock used for serial data. The interface Fmax is also dependent on the parallel clock domain
which is design dependent and requires timing analysis.
(61) The VCC and VCCP must be on a combined power layer and a maximum load of 5 pF for chip-to-chip interface.
(62) The minimum specification depends on the clock source (for example, the PLL and clock pin) and the clock routing resource (global,
regional, or local) that you use. The I/O differential buffer and serializer do not have a minimum toggle rate.
(63) The maximum ideal data rate is the SERDES factor (J) x the PLL maximum output frequency (fOUT) provided you can close the design
timing and the signal integrity meets the interface requirements.
(64) Not applicable for DIVCLK = 1.
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Symbol Condition –E5, –I5 –E6, –I6 Unit
Min Typ Max Min Typ Max
TCCS (64)(59)True Differential I/O
Standards
150 150 ps
Receiver True Differential
I/O Standards -
fHSDRDPA (data
rate)
SERDES factor
J = 4 to 10 (60)(61)(62)
150 1434 150 1250 Mbps
SERDES factor
J = 3 (60)(61)(62)
150 1076 150 938 Mbps
fHSDR (data rate)
(without
DPA) (59)
SERDES factor J = 3 to 10 (62)(66) (62)(66)Mbps
SERDES factor J = 2, uses
DDR registers
(62)(63) (62)(63)Mbps
SERDES factor J = 1, uses
DDR registers
(62)(63) (62)(63)Mbps
DPA (FIFO mode) DPA run length 10000 10000 UI
DPA (soft CDR mode) DPA run length SGMII/GbE protocol 5 5 UI
All other protocols 50 data
transition
per 208 UI
50 data
transition
per 208 UI
Soft CDR mode Soft-CDR ppm
tolerance
300 300 ± ppm
Non DPA mode Sampling Window 300 300 ps
(65) This applies to default pre-emphasis and VOD settings only.
(66) You can estimate the achievable maximum data rate for non-DPA mode by performing link timing closure analysis. You must consider
the board skew margin, transmitter delay margin, and receiver sampling margin to determine the maximum data rate supported.
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DPA Lock Time Specifications
Figure 2. DPA Lock Time Specifications with DPA PLL Calibration Enabled
rx_dpa_locked
rx_reset
DPA Lock Time
256 data
transitions 96 core
clock cycles 256 data
transitions 256 data
transitions
96 core
clock cycles
Table 38. DPA Lock Time Specifications for Intel Cyclone 10 GX Devices
The specifications are applicable to both extended and industrial grades. The DPA lock time is for one channel. One data transition is defined as a 0-to-1 or 1-to-0
transition.
Standard Training Pattern Number of Data Transitions in
One Repetition of the Training
Pattern
Number of Repetitions per 256
Data Transitions (67)
Maximum Data
Transition
SPI-4 00000000001111111111 2 128 640
Parallel Rapid I/O 00001111 2 128 640
10010000 4 64 640
Miscellaneous 10101010 8 32 640
01010101 8 32 640
(67) This is the number of repetitions for the stated training pattern to achieve the 256 data transitions.
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LVDS Soft-CDR/DPA Sinusoidal Jitter Tolerance Specifications
Figure 3. LVDS Soft-CDR/DPA Sinusoidal Jitter Tolerance Specifications for a Data Rate Equal to 1.4 Gbps
LVDS Soft-CDR/DPA Sinusoidal Jitter Tolerance Specification
F1 F2 F3 F4
Jitter Frequency (Hz)
Jitter Amphlitude (UI)
0.1
0.28
8.5
25
Table 39. LVDS Soft-CDR/DPA Sinusoidal Jitter Mask Values for a Data Rate Equal to 1.4 Gbps
Jitter Frequency (Hz) Sinusoidal Jitter (UI)
F1 10,000 25.00
F2 17,565 25.00
F3 1,493,000 0.28
F4 50,000,000 0.28
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Figure 4. LVDS Soft-CDR/DPA Sinusoidal Jitter Tolerance Specifications for a Data Rate Less than 1.4 Gbps
0.1 UI P-P
baud/1667 20 MHz Frequency
Sinusoidal Jitter Amplitude
20db/dec
Memory Standards Supported by the Hard Memory Controller
Table 40. Memory Standards Supported by the Hard Memory Controller for Intel Cyclone 10 GX Devices
This table lists the overall capability of the hard memory controller. For specific details, refer to the External Memory Interface Spec Estimator.
Memory Standard Rate Support Speed Grade Ping Pong PHY
Support
Maximum Frequency (MHz)
I/O Bank 3 V I/O Bank
DDR3 SDRAM Half rate –5 Yes 533 225
533 225
–6 Yes 466 166
466 166
Quarter rate –5 Yes 933 450
933 450
–6 Yes 933 333
continued...
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Memory Standard Rate Support Speed Grade Ping Pong PHY
Support
Maximum Frequency (MHz)
I/O Bank 3 V I/O Bank
933 333
DDR3L SDRAM Half rate –5 Yes 533 225
533 225
–6 Yes 466 166
466 166
Quarter rate –5 Yes 933 450
933 450
–6 Yes 933 333
933 333
LPDDR3 SDRAM Half rate –5 400 225
–6 333 166
Quarter rate –5 800 450
–6 666 333
Related Information
External Memory Interface Spec Estimator
Provides the specific details of the memory standards supported.
DLL Range Specifications
Table 41. DLL Frequency Range Specifications for Intel Cyclone 10 GX Devices
Intel Cyclone 10 GX devices support memory interface frequencies lower than 600 MHz, although the reference clock that feeds the DLL must be at least
600 MHz. To support interfaces below 600 MHz, multiply the reference clock feeding the DLL to ensure the frequency is within the supported range.
Parameter Performance (for All Speed Grades) Unit
DLL operating frequency range 600 – 1333 MHz
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DQS Logic Block Specifications
Table 42. DQS Phase Shift Error Specifications for DLL-Delayed Clock (tDQS_PSERR) for Intel Cyclone 10 GX Devices
This error specification is the absolute maximum and minimum error.
Symbol Performance (for All Speed Grades) Unit
tDQS_PSERR 5 ps
Memory Output Clock Jitter Specifications
Table 43. Memory Output Clock Jitter Specifications for Intel Cyclone 10 GX Devices
The clock jitter specification applies to the memory output clock pins clocked by an I/O PLL, or generated using differential signal-splitter and double data I/O
circuits clocked by a PLL output routed on a PHY clock network as specified. Intel recommends using PHY clock networks for better jitter performance.
The memory output clock jitter is applicable when an input jitter of 10 ps peak-to-peak is applied with bit error rate (BER) 10–12, equivalent to 14 sigma.
Protocol Parameter Symbol Data Rate
(Mbps)
Min Max Unit
DDR3 Clock period jitter tJIT(per) 1,866 –40 40 ps
Cycle-to-cycle period jitter tJIT(cc) 1,866 –40 40 ps
Duty cycle jitter tJIT(duty) 1,866 –40 40 ps
OCT Calibration Block Specifications
Table 44. OCT Calibration Block Specifications for Intel Cyclone 10 GX Devices
Symbol Description Min Typ Max Unit
OCTUSRCLK Clock required by OCT calibration blocks 20 MHz
TOCTCAL Number of OCTUSRCLK clock cycles required for
RS OCT /RT OCT calibration
> 2000 Cycles
TOCTSHIFT Number of OCTUSRCLK clock cycles required for OCT code to shift out 32 Cycles
TRS_RT Time required between the dyn_term_ctrl and oe signal transitions
in a bidirectional I/O buffer to dynamically switch between RS OCT and
RT OCT
2.5 ns
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Figure 5. Timing Diagram for on oe and dyn_term_ctrl Signals
TX RXRX
oe
dyn_term_ctrl
TRS_RT
TRS_RT
Tristate Tristate
Configuration Specifications
This section provides configuration specifications and timing for Intel Cyclone 10 GX devices.
POR Specifications
Power-on reset (POR) delay is defined as the delay between the time when all the power supplies monitored by the POR
circuitry reach the minimum recommended operating voltage to the time when the nSTATUS is released high and your device
is ready to begin configuration.
Table 45. Fast and Standard POR Delay Specification for Intel Cyclone 10 GX Devices
POR Delay Minimum Maximum Unit
Fast 4 12 (68) ms
Standard 100 300 ms
Related Information
MSEL Pin Settings
Provides more information about POR delay based on MSEL pin settings for each configuration scheme.
(68) The maximum pulse width of the fast POR delay is 12 ms, providing enough time for the PCIe hard IP to initialize after the POR trip.
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JTAG Configuration Timing
Table 46. JTAG Timing Parameters and Values for Intel Cyclone 10 GX Devices
Symbol Description Min Max Unit
tJCP TCK clock period 30, 167 (69) ns
tJCH TCK clock high time 14 ns
tJCL TCK clock low time 14 ns
tJPSU (TDI) TDI JTAG port setup time 2 ns
tJPSU (TMS) TMS JTAG port setup time 3 ns
tJPH JTAG port hold time 5 ns
tJPCO JTAG port clock to output 11 ns
tJPZX JTAG port high impedance to valid output 14 ns
tJPXZ JTAG port valid output to high impedance 14 ns
FPP Configuration Timing
DCLK-to-DATA[] Ratio (r) for FPP Configuration
Fast passive parallel (FPP) configuration requires a different DCLK-to-DATA[] ratio when you turn on encryption or the
compression feature.
Depending on the DCLK-to-DATA[] ratio, the host must send a DCLK frequency that is r times the DATA[] rate in byte per
second (Bps) or word per second (Wps). For example, in FPP ×16 where the r is 2, the DCLK frequency must be 2 times the
DATA[] rate in Wps.
(69) The minimum TCK clock period is 167 ns if VCCBAT is within the range 1.2 V – 1.5 V when you perform the volatile key programming.
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Table 47. DCLK-to-DATA[] Ratio for Intel Cyclone 10 GX Devices
You cannot turn on encryption and compression at the same time for Intel Cyclone 10 GX devices.
Configuration Scheme Encryption Compression DCLK-to-DATA[] Ratio (r)
FPP (8-bit wide) Off Off 1
On Off 1
Off On 2
FPP (16-bit wide) Off Off 1
On Off 2
Off On 4
FPP (32-bit wide) Off Off 1
On Off 4
Off On 8
FPP Configuration Timing when DCLK-to-DATA[] = 1
Note: When you enable decompression or the design security feature, the DCLK-to-DATA[] ratio varies for FPP ×8, FPP ×16, and
FPP ×32. For the respective DCLK-to-DATA[] ratio, refer to the DCLK-to-DATA[] Ratio for Intel Cyclone 10 GX Devices table.
Table 48. FPP Timing Parameters When the DCLK-to-DATA[] Ratio is 1 for Intel Cyclone 10 GX Devices
Use these timing parameters when the decompression and design security features are disabled.
Symbol Parameter Minimum Maximum Unit
tCF2CD nCONFIG low to CONF_DONE low 480 1,440 ns
tCF2ST0 nCONFIG low to nSTATUS low 320 960 ns
tCFG nCONFIG low pulse width 2 μs
tSTATUS nSTATUS low pulse width 268 3,000 (70) μs
tCF2ST1 nCONFIG high to nSTATUS high 3,000 (71) μs
continued...
(70) This value is applicable if you do not delay configuration by extending the nCONFIG or nSTATUS low pulse width.
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Symbol Parameter Minimum Maximum Unit
tCF2CK (72)nCONFIG high to first rising edge on DCLK 3,010 μs
tST2CK (72)nSTATUS high to first rising edge of DCLK 10 μs
tDSU DATA[] setup time before rising edge on DCLK 5.5 ns
tDH DATA[] hold time after rising edge on DCLK 0 ns
tCH DCLK high time 0.45 × 1/fMAX s
tCL DCLK low time 0.45 × 1/fMAX s
tCLK DCLK period 1/fMAX s
fMAX DCLK frequency (FPP ×8/×16/×32) 100 MHz
tCD2UM CONF_DONE high to user mode (73) 175 830 μs
tCD2CU CONF_DONE high to CLKUSR enabled 4 × maximum DCLK
period
tCD2UMC CONF_DONE high to user mode with CLKUSR option on tCD2CU +
(600 × CLKUSR period)
Related Information
FPP Configuration Timing
Provides the FPP configuration timing waveforms.
(71) This value is applicable if you do not delay configuration by externally holding the nSTATUS low.
(72) If nSTATUS is monitored, follow the tST2CK specification. If nSTATUS is not monitored, follow the tCF2CK specification.
(73) The minimum and maximum numbers apply only if you chose the internal oscillator as the clock source for initializing the device.
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FPP Configuration Timing when DCLK-to-DATA[] >1
Table 49. FPP Timing Parameters When the DCLK-to-DATA[] Ratio is >1 for Intel Cyclone 10 GX Devices
Use these timing parameters when you use the decompression and design security features.
Symbol Parameter Minimum Maximum Unit
tCF2CD nCONFIG low to CONF_DONE low 480 1,440 ns
tCF2ST0 nCONFIG low to nSTATUS low 320 960 ns
tCFG nCONFIG low pulse width 2 μs
tSTATUS nSTATUS low pulse width 268 3,000 (74)μs
tCF2ST1 nCONFIG high to nSTATUS high 3,000 (74)μs
tCF2CK (75)nCONFIG high to first rising edge on DCLK 3,010 μs
tST2CK (75)nSTATUS high to first rising edge of DCLK 10 μs
tDSU DATA[] setup time before rising edge on DCLK 5.5 ns
tDH DATA[] hold time after rising edge on DCLK N–1/fDCLK (76) s
tCH DCLK high time 0.45 × 1/fMAX s
tCL DCLK low time 0.45 × 1/fMAX s
tCLK DCLK period 1/fMAX s
fMAX DCLK frequency (FPP ×8/×16/×32) 100 MHz
tRInput rise time 40 ns
tFInput fall time 40 ns
continued...
(74) You can obtain this value if you do not delay configuration by extending the nCONFIG or nSTATUS low pulse width.
(75) If nSTATUS is monitored, follow the tST2CK specification. If nSTATUS is not monitored, follow the tCF2CK specification.
(76) N is the DCLK-to-DATA ratio and fDCLK is the DCLK frequency the system is operating.
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Symbol Parameter Minimum Maximum Unit
tCD2UM CONF_DONE high to user mode (77) 175 830 μs
tCD2CU CONF_DONE high to CLKUSR enabled 4 × maximum DCLK
period
tCD2UMC CONF_DONE high to user mode with CLKUSR option on tCD2CU +
(600 × CLKUSR period)
Related Information
FPP Configuration Timing
Provides the FPP configuration timing waveforms.
AS Configuration Timing
Table 50. AS Timing Parameters for AS ×1 and AS ×4 Configurations in Intel Cyclone 10 GX Devices
The minimum and maximum numbers apply only if you choose the internal oscillator as the clock source for initializing the device.
The tCF2CD, tCF2ST0, tCFG, tSTATUS, and tCF2ST1 timing parameters are identical to the timing parameters for passive serial (PS) mode listed in PS Timing Parameters
for Intel Cyclone 10 GX Devices table.
Symbol Parameter Minimum Maximum Unit
tCO DCLK falling edge to AS_DATA0/ASDO output 2 ns
tSU Data setup time before falling edge on DCLK 1 ns
tDH Data hold time after falling edge on DCLK 1.5 ns
tCD2UM CONF_DONE high to user mode 175 830 μs
tCD2CU CONF_DONE high to CLKUSR enabled 4 × maximum DCLK
period
tCD2UMC CONF_DONE high to user mode with CLKUSR option on tCD2CU + (600 × CLKUSR
period)
(77) The minimum and maximum numbers apply only if you use the internal oscillator as the clock source for initializing the device.
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Related Information
PS Configuration Timing on page 50
AS Configuration Timing
Provides the AS configuration timing waveform.
DCLK Frequency Specification in the AS Configuration Scheme
Table 51. DCLK Frequency Specification in the AS Configuration Scheme
This table lists the internal clock frequency specification for the AS configuration scheme.
The DCLK frequency specification applies when you use the internal oscillator as the configuration clock source.
The AS multi-device configuration scheme does not support DCLK frequency of 100 MHz.
You can only set 12.5, 25, 50, and 100 MHz in the Intel Quartus Prime software.
Parameter Minimum Typical Maximum Intel Quartus Prime
Software Settings
Unit
DCLK frequency in AS configuration
scheme
5.3 7.5 9.7 12.5 MHz
10.5 15.0 19.3 25.0 MHz
21.0 30.0 38.5 50.0 MHz
42.0 60.0 77.0 100.0 MHz
PS Configuration Timing
Table 52. PS Timing Parameters for Intel Cyclone 10 GX Devices
Symbol Parameter Minimum Maximum Unit
tCF2CD nCONFIG low to CONF_DONE low 480 1,440 ns
tCF2ST0 nCONFIG low to nSTATUS low 320 960 ns
tCFG nCONFIG low pulse width 2 μs
tSTATUS nSTATUS low pulse width 268 3,000 (78) μs
tCF2ST1 nCONFIG high to nSTATUS high 3,000 (79) μs
continued...
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Symbol Parameter Minimum Maximum Unit
tCF2CK (80)nCONFIG high to first rising edge on DCLK 3,010 μs
tST2CK (80)nSTATUS high to first rising edge of DCLK 10 μs
tDSU DATA[] setup time before rising edge on DCLK 5.5 ns
tDH DATA[] hold time after rising edge on DCLK 0 ns
tCH DCLK high time 0.45 × 1/fMAX s
tCL DCLK low time 0.45 × 1/fMAX s
tCLK DCLK period 1/fMAX s
fMAX DCLK frequency 125 MHz
tCD2UM CONF_DONE high to user mode (81) 175 830 μs
tCD2CU CONF_DONE high to CLKUSR enabled 4 × maximum DCLK
period
tCD2UMC CONF_DONE high to user mode with CLKUSR option on tCD2CU + (600 × CLKUSR
period)
Related Information
PS Configuration Timing
Provides the PS configuration timing waveform.
(78) This value is applicable if you do not delay configuration by extending the nCONFIG or nSTATUS low pulse width.
(79) This value is applicable if you do not delay configuration by externally holding the nSTATUS low.
(80) If nSTATUS is monitored, follow the tST2CK specification. If nSTATUS is not monitored, follow the tCF2CK specification.
(81) The minimum and maximum numbers apply only if you choose the internal oscillator as the clock source for initializing the device.
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Initialization
Table 53. Initialization Clock Source Option and the Maximum Frequency for Intel Cyclone 10 GX Devices
Initialization Clock Source Configuration Scheme Maximum Frequency (MHz) Minimum Number of Clock Cycles
Internal Oscillator AS, PS, and FPP 12.5 600
CLKUSR (82)(83) AS, PS, and FPP 100
Configuration Files
There are two types of configuration bit stream formats for different configuration schemes:
PS and FPP—Raw Binary File (.rbf)
AS—Raw Programming Data File (.rpd)
The .rpd file size follows the Intel configuration devices capacity. However, the actual configuration bit stream size for .rpd
file is the same as .rbf file.
(82) To enable CLKUSR as the initialization clock source, in the Intel Quartus Prime software, select Device and Pin Options General
Device initialization clock source CLKUSR pin.
(83) If you use the CLKUSR pin for AS and transceiver calibration simultaneously, the only allowed frequency is 100 MHz.
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Table 54. Configuration Bit Stream Sizes for Intel Cyclone 10 GX Devices
Use this table to estimate the file size before design compilation. Different configuration file formats, such as a hexadecimal file (.hex) or tabular text file (.ttf)
format, have different file sizes.
For the different types of configuration file and file sizes, refer to the Intel Quartus Prime software. However, for a specific version of the Intel Quartus Prime
software, any design targeted for the same device has the same uncompressed configuration file size.
I/O configuration shift register (IOCSR) is a long shift register that facilitates the device I/O peripheral settings. The IOCSR bit stream is part of the uncompressed
configuration bit stream, and it is specifically for the Configuration via Protocol (CvP) feature.
Uncompressed configuration bit stream sizes are subject to change for improvements and optimizations in the configuration algorithm.
Variant Product Line Uncompressed Configuration Bit
Stream Size (bits)
IOCSR Bit Stream Size (bits) Recommended EPCQ-L Serial Configuration
Device
Intel Cyclone 10 GX GX 085 81,923,582 2,507,264 EPCQ-L256 or higher density
GX 105 81,923,582 2,507,264 EPCQ-L256 or higher density
GX 150 81,923,582 2,507,264 EPCQ-L256 or higher density
GX 220 81,923,582 2,507,264 EPCQ-L256 or higher density
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Minimum Configuration Time Estimation
Table 55. Minimum Configuration Time Estimation for Intel Cyclone 10 GX Devices
The estimated values are based on the uncompressed configuration bit stream sizes in the Configuration Bit Stream Sizes for Intel Cyclone 10 GX Devices table.
Variant Product Line Active Serial (84) Fast Passive Parallel (85)
Width DCLK (MHz) Minimum Configuration
Time (ms)
Width DCLK (MHz) Minimum
Configuration Time
(ms)
Intel Cyclone 10 GX GX 085 4 100 204.81 32 100 25.60
GX 105 4 100 204.81 32 100 25.60
GX 150 4 100 204.81 32 100 25.60
GX 220 4 100 204.81 32 100 25.60
Related Information
Configuration Files on page 52
DCLK Frequency Specification in the AS Configuration Scheme on page 50
Provides the DCLK frequency using internal oscillator.
(84) The minimum configuration time is calculated based on DCLK frequency of 100 MHz. Only external CLKUSR may guarantee the
frequency accuracy of 100 MHz. If you use internal oscillator of 100 MHz, you may not get the actual frequency of 100 MHz. For the
DCLK frequency using internal oscillator, refer to the DCLK Frequency Specification in the AS Configuration Scheme table.
(85) Maximum FPGA FPP bandwidth may exceed bandwidth available from some external storage or control logic.
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Remote System Upgrades
Table 56. Remote System Upgrade Circuitry Timing Specifications for Intel Cyclone 10 GX Devices
Parameter Minimum Maximum Unit
fMAX_RU_CLK (86) 40 MHz
tRU_nCONFIG (87) 250 ns
tRU_nRSTIMER (88) 250 ns
Related Information
Remote System Upgrade State Machine
Provides more information about configuration reset (RU_CONFIG) signal.
User Watchdog Timer
Provides more information about reset_timer (RU_nRSTIMER) signal.
User Watchdog Internal Circuitry Timing Specifications
Table 57. User Watchdog Internal Oscillator Frequency Specifications for Intel Cyclone 10 GX Devices
Parameter Minimum Typical Maximum Unit
User watchdog internal oscillator frequency 5.3 7.9 12.5 MHz
I/O Timing
I/O timing data is typically used prior to designing the FPGA to get an estimate of the timing budget as part of the timing
analysis. You may generate the I/O timing report manually using the Timing Analyzer or using the automated script.
(86) This clock is user-supplied to the remote system upgrade circuitry. If you are using the Remote Update Intel FPGA IP core, the clock
user-supplied to the Remote Update Intel FPGA IP core must meet this specification.
(87) This is equivalent to strobing the reconfiguration input of the Remote Update Intel FPGA IP core high for the minimum timing
specification.
(88) This is equivalent to strobing the reset_timer input of the Remote Update Intel FPGA IP core high for the minimum timing
specification.
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The Intel Quartus Prime Timing Analyzer provides a more accurate and precise I/O timing data based on the specifics of the
design after you complete place-and-route.
Related Information
AN775: I/O Timing Information Generation Guidelines
Provides the techniques to generate I/O timing information using the Intel Quartus Prime software.
Programmable IOE Delay
Table 58. IOE Programmable Delay for Intel Cyclone 10 GX Devices
For the exact values for each setting, use the latest version of the Intel Quartus Prime software. The values in the table show the delay of programmable IOE
delay chain with maximum offset settings after excluding the intrinsic delay (delay at minimum offset settings).
Programmable IOE delay settings are only applicable for I/O buffers and do not apply for any other delay elements in the PHYLite for Parallel Interfaces Intel
Cyclone 10 FPGA IP core.
Parameter (89) Maximum Offset Minimum
Offset (90)
Fast Model Slow Model Unit
Extended Industrial –E5, –I5 –E6, –I6
Input Delay Chain Setting
(IO_IN_DLY_CHN)
63 0 2.012 2.003 5.241 6.035 ns
Output Delay Chain Setting
(IO_OUT_DLY_CHN)
15 0 0.478 0.475 1.263 1.462 ns
Glossary
Table 59. Glossary
Term Definition
Differential I/O Standards Receiver Input Waveforms
continued...
(89) You can set this value in the Intel Quartus Prime software by selecting Input Delay Chain Setting or Output Delay Chain Setting
in the Assignment Name column.
(90) Minimum offset does not include the intrinsic delay.
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Term Definition
Single-Ended Waveform
Differential Waveform
Positive Channel (p) = VIH
Negative Channel (n) = VIL
Ground
VID
VID
VID
p - n = 0 V
VCM
Transmitter Output Waveforms
Single-Ended Waveform
Differential Waveform
Positive Channel (p) = VOH
Negative Channel (n) = VOL
Ground
VOD
VOD
VOD
p - n = 0 V
VCM
fHSCLK I/O PLL input clock frequency.
fHSDR High-speed I/O block—Maximum/minimum LVDS data transfer rate
(fHSDR = 1/TUI), non-DPA.
fHSDRDPA High-speed I/O block—Maximum/minimum LVDS data transfer rate
(fHSDRDPA = 1/TUI), DPA.
J High-speed I/O block—Deserialization factor (width of parallel data bus).
JTAG Timing Specifications JTAG Timing Specifications:
continued...
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Term Definition
TDO
TCK
tJPZX tJPCO
tJPH
tJPXZ
tJCP
tJPSU
t JCL
tJCH
TDI
TMS
RLReceiver differential input discrete resistor (external to the Intel Cyclone 10 GX device).
Sampling window (SW) Timing Diagram—the period of time during which the data must be valid in order to capture it correctly. The setup and hold
times determine the ideal strobe position in the sampling window, as shown:
Single-ended voltage referenced I/O standard The JEDEC standard for the SSTL and HSTL I/O defines both the AC and DC input signal values. The AC values indicate the
voltage levels at which the receiver must meet its timing specifications. The DC values indicate the voltage levels at which
the final logic state of the receiver is unambiguously defined. After the receiver input has crossed the AC value, the
receiver changes to the new logic state.
The new logic state is then maintained as long as the input stays beyond the DC threshold. This approach is intended to
provide predictable receiver timing in the presence of input waveform ringing.
Single-Ended Voltage Referenced I/O Standard
continued...
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Term Definition
VIH(DC)
VREF
VOH
VOL
VCCIO
VSS
VIL(DC)
VIH(AC)
VIL(AC)
tCHigh-speed receiver/transmitter input and output clock period.
TCCS (channel-to-channel-skew) The timing difference between the fastest and slowest output edges, including the tCO variation and clock skew, across
channels driven by the same PLL. The clock is included in the TCCS measurement (refer to the Timing Diagram figure
under SW in this table).
tDUTY High-speed I/O block—Duty cycle on high-speed transmitter output clock.
tFALL Signal high-to-low transition time (80–20%)
tINCCJ Cycle-to-cycle jitter tolerance on the PLL clock input
tOUTPJ_IO Period jitter on the GPIO driven by a PLL
tOUTPJ_DC Period jitter on the dedicated clock output driven by a PLL
tRISE Signal low-to-high transition time (20–80%)
Timing Unit Interval (TUI) The timing budget allowed for skew, propagation delays, and the data sampling window.
(TUI = 1/(Receiver Input Clock Frequency Multiplication Factor) = tC/w).
VCM(DC) DC Common mode input voltage.
VICM Input Common mode voltage—The common mode of the differential signal at the receiver.
VID Input differential voltage swing—The difference in voltage between the positive and complementary conductors of a
differential transmission at the receiver.
VDIF(AC) AC differential input voltage—Minimum AC input differential voltage required for switching.
VDIF(DC) DC differential input voltage— Minimum DC input differential voltage required for switching.
VIH Voltage input high—The minimum positive voltage applied to the input which is accepted by the device as a logic high.
continued...
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Term Definition
VIH(AC) High-level AC input voltage
VIH(DC) High-level DC input voltage
VIL Voltage input low—The maximum positive voltage applied to the input which is accepted by the device as a logic low.
VIL(AC) Low-level AC input voltage
VIL(DC) Low-level DC input voltage
VOCM Output Common mode voltage—The common mode of the differential signal at the transmitter.
VOD Output differential voltage swing—The difference in voltage between the positive and complementary conductors of a
differential transmission line at the transmitter.
VSWING Differential input voltage
VIX Input differential cross point voltage
VOX Output differential cross point voltage
W High-speed I/O block—Clock Boost Factor
Document Revision History for the Intel Cyclone 10 GX Device Datasheet
Document
Version
Changes
2018.06.15 Added Intel Cyclone 10 GX Devices Overshoot Duration figure and description.
Added a link in the OCT Calibration Accuracy Specifications section.
Removed Equation for OCT Variation Without Recalibration.
Updated the note to CLKUSR in the Initialization Clock Source Option and the Maximum Frequency for Intel Cyclone 10 GX Devices table.
Updated the I/O Timing section on the I/O timing information generation guidelines.
Updated the description and maximum offset values in the IOE Programmable Delay for Intel Cyclone 10 GX Devices table.
2018.04.06 Added notes to IOUT specification in the Absolute Maximum Ratings for Intel Cyclone 10 GX Devices table.
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Date Version Changes
November 2017 2017.11.10 Changed the full symbol names for VCCR_GXB and VCCT_GXB, and changed the description for VCCH_GXB in the Transceiver
Power Supply Operating Conditions for Intel Cyclone 10 GX Devices table.
Removed note from the Transceiver Power Supply Operating Conditions section.
Added a footnote in the Reference Clock Specifications table.
Removed the "Programmable AC Gain at High Gain mode and Data Rate ≤ 12.5 Gbps" parameter from the Receiver
Specifications table.
Changed the channel span descriptions for the x1 and x6 clock networks in the Transceiver Clock Network Maximum Data
Rate Specifications table.
Changed the description of the VOD ratio in the Typical Transmitter VOD Settings table.
Changed the specifications for CDR PPM deviation limit in the Receiver Specifications table.
Updated the description for VCCT_GXB, VCCR_GXB, and VCCH_GXB.
Added note to VI in the Recommended Operating Conditions for Intel Cyclone 10 GX Devices table.
Updated notes to RSDS and Mini-LVDS in the Differential I/O Standards Specifications for Intel Cyclone 10 GX Devices
table.
Updated fVCO specifications in the Fractional PLL Specifications for Intel Cyclone 10 GX Devices table.
Updated temperature range from "–40 to 125°C" to "–40 to 100°C" in the Internal Temperature Sensing Diode
Specifications for Intel Cyclone 10 GX Devices table.
Updated the description for the Memory Output Clock Jitter Specifications for Intel Cyclone 10 GX Devices table.
Updated the following IP cores name:
Remote Update Intel FPGA
PHYLite for Parallel Interfaces Intel Cyclone 10 FPGA
Removed automotive-grade information.
Removed Preliminary tags.
May 2017 2017.05.08 Initial release.
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