EPC16 Altera Corporation, EPC16 Datasheet
EPC16
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EPC16 Summary of contents
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... December 2002, ver. 12.2 Features Altera Corporation DS-EPROM-12.2 Configuration Devices for ® Serial device family for configuring APEX APEX 20K, APEX 20KC, and APEX 20KE), Mercury and FLEX ® (FLEX 6000, FLEX 10KE, and FLEX 10KA) devices Easy-to-use 4-pin interface to APEX II, APEX 20K, Mercury, ACEX, ...
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... The nCASC pin is available on EPC1 and EPC1213 devices. On the EPC1064, EPC1064V, and EPC1441 devices reserved pin and should not be connected. 2 EPC4, EPC8, and EPC16 configuration devices have reprogrammable Flash configuration memory with density up to 16,000,000 or 32,000,000 bits with compression feature in these devices. ...
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... N. VPPSEL 14 N. 32-Pin TQFP www.DataSheet.co.kr Device EPC16 16,000,000 EPC8 8,000,000 1 bit with 3.3-V operation EPC4 4,000,000 1-bit device with 3.3-V operation EPC2 1,695,680 1-bit device with 5.0-V or 3.3-V operation EPC1 (1) 1,046,496 1-bit device with 5.0-V or 3.3-V operation EPC1441 (1) 440,800 1-bit device with 5.0-V or 3.3-V operation ...
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... V) EP20K200 1,950,000 EP20K400 3,878,000 ACEX 1K EP1K10 178,000 (2.5 V) EP1K30 470,000 EP1K50 785,000 EP1K100 1,337,000 4 lists the configuration device used with each APEX II, APEX 20K, EPC1064 EPC1213 EPC1441 EPC1 EPC2 EPC4 EPC8 EPC16 (Bits) EPC1064V www.DataSheet.co. ...
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... EPF8282AV (5.0 V) (3.3 V) EPF8452A 64,000 EPF8636A 96,000 EPF8820A 128,000 EPF81188A 192,000 EPF1500A 250,000 Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet EPC1064 EPC1213 EPC1441 EPC1 EPC2 EPC4 EPC8 EPC16 (Bits) EPC1064V 1 1 www.DataSheet.co. ...
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... CLK ENA nRESET Address Error EPROM Detection Circuitry Array DATA Shift Register Address CLK www.DataSheet.co.kr Counter ENA nRESET Address Decode Logic EPROM Array DATA Shift Register (1) DCLK Address Counter Decode Logic (2) nCASC DATA Altera Corporation nCASC (2) DATA Datasheet pdf - http://www.DataSheet4U.net/ ...
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... PLD( configured. A JTAG instruction causes the EPC4, EPC8, EPC16, and EPC2 device to drive nINIT_CONF low, which in turn pulls nCONFIG low. The EPC4, EPC8, EPC16, and EPC2 device then drives nINIT_CONF high to start configuration. When the JTAG state machine exits this state, nINIT_CONF releases nCONFIG and configuration is initiated ...
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... EPC1 or EPC1441 devices. APEX II devices can be configured with EPC2, EPC4, EPC8, and EPC16 devices. The EPC4, EPC8, EPC16, EPC2, EPC1, or EPC1441 device stores configuration data in its EPROM array and serially clocks data out with an internal oscillator. The OE, nCS, and DCLK pins supply the control signals for the address counter and the output tri-state buffer ...
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... EPC16, and EPC2 configuration devices cannot be used with FLEX 6000 devices. All other connections are the same for APEX II, APEX 20K, Mercury, ACEX 1K, and FLEX devices. (4) The nINIT_CONF pin is only available on EPC2, EPC4, EPC8, and EPC16 devices and has an internal pull that is always active. If nINIT_CONF is not available or not used, nCONFIG must be pulled to V through a 1-k resistor. ...
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... Configuration Devices for SRAM-based LUT Devices Data Sheet Table 3 APEX II, APEX 20K, Mercury, ACEX 1K, and FLEX device configuration. For information on EPC4, EPC8, and EPC16 devices, refer to Configuration Devices (EPC4, EPC8, & EPC16) Data Table 3. EPC2, EPC1, & EPC1441 Pin Functions During APEX II, APEX 20K, Mercury, ACEX 1K, FLEX 10K & ...
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... TCK (7) – 5 VCCSEL (7) – 14 VPPSEL (7) – 18 VPP Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet Notes (1), (2) Pin Type 32-Pin TQFP (4) 15 Output Cascade select output (active low). This output goes low when the address counter has reached its maximum value ...
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... Do not use EPC2 devices to configure FLEX 6000 devices. (2) Pin-out information for EPC8 and EPC16 configuration devices, please refer to each respective data sheet. (3) This package is available for EPC1 and EPC1441 devices only. (4) This package is available for EPC2 and EPC1441 devices only. ...
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... EPC2 or EPC1 devices can be added by connecting nCASC to nCS of the subsequent slave EPC2 or EPC1 device in the chain and connecting DCLK, DATA, and OE in parallel. 1 Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet www.DataSheet.co.kr shows an APEX II, APEX 20K, Mercury, ACEX 1K, FLEX 10K mixture of APEX 20K, Mercury, ACEX 1K, FLEX 10K, and FLEX 6000 devices can be configured in the same chain ...
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... The diagram shows an APEX II, APEX 20K, Mercury, ACEX 1K, and FLEX device, which has MSEL0 and MSEL1 tied to ground. For FLEX 6000 devices, MSEL is tied to ground, and the DATA0 pin is named DATA. EPC8, EPC16, and EPC2 devices cannot be used with FLEX 6000 devices. All other connections are the same for FLEX 6000 devices ...
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... APEX 20KE Devices APEX 20KE PLD (7) DCLK MSEL0 DATA0 MSEL1 nSTATUS CONF_DONE nCONFIG GND GND nCE Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet shows two APEX II, APEX 20K, Mercury, ACEX 1K, and FLEX Note ( (2) (2) LUT-Based PLD (3) DCLK ...
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... For FLEX 6000 devices, MSEL is tied to ground, and the DATA0 pin is named DATA. EPC2 cannot be used with FLEX 6000 devices. All other connections are the same for FLEX 6000 devices. (4) EPC4, EPC8, and EPC16 devices cannot be cascaded. (5) The nINIT_CONF pin is only available on EPC2 devices and has an internal pull that is always active. If ...
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... DCLK frequency Table 4: For more information regarding EPC4, EPC8, or EPC16 configuration device timing parameters, see the Enhanced Configuration Device (EPC4, EPC8 & EPC16) Data The configuration device imposes a POR delay upon initial power-up to allow the voltage supply to stabilize. Subsequent reconfigurations do not incur this delay. ...
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... DCLK frequency Table 5: For more information regarding EPC4, EPC8, or EPC16 configuration device timing parameters, see the Enhanced Configuration Device (EPC4, EPC8 & EPC16) Data The configuration device imposes a POR delay upon initial power-up to allow the voltage supply to stabilize. Subsequent reconfigurations do not incur this delay. ...
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... DCLK frequency Table 6: Do not use EPC16, EPC8, EPC4, or EPC2 devices to configure FLEX 6000 devices. For more information regarding EPC4, EPC8, or EPC16 configuration device timing parameters, see the Enhanced Configuration Device (EPC4, EPC8 & EPC16) Data The configuration device imposes a POR delay upon initial power-up to allow the www ...
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... The pull-up resistor should be connected to the same supply voltage as the configuration device. All pull-up resistors are shows three FLEX 8000 devices configured with two EPC1 or shows a FLEX 8000 device (1) (1) VCC VCC (2) (2) Configuration Device nCS OE DATA DCLK Altera Corporation Datasheet pdf - http://www.DataSheet4U.net/ ...
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... MSEL0 DCLK DATA0 nCONFIG Notes to Figure 9: (1) The pull-resistor should be connected to the same supply voltage as the confiuration device. (2) All pull-up resistors are Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet (1) VCC (1) VCC (2) (2) (1) (1) VCC VCC ...
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... DCLK clocks data out of the next device. 27 Power Power pin. 12 Ground Ground pin. A 0.2- F decoupling capacitor must be placed between the VCC and GND pins. Application Note 33 (Configuring FLEX 8000 Devices) Application Note 38 (Configuring Multiple FLEX 8000 Devices) Description Altera Corporation Datasheet pdf - http://www.DataSheet4U.net/ ...
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... During initial power-up, a POR delay occurs to permit voltage levels to stabilize. When configuring an APEX II, APEX 20K, Mercury, ACEX 1K, FLEX 10K, or FLEX 6000 device with an EPC4, EPC8, EPC16, EPC2, EPC1, or EPC1441 device, the POR delay occurs inside the configuration device, and the POR delay is a maximum of 200 ms. When configuring a ...
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... EPC2, EPC1, and EPC1441 devices can configure 5.0-V, 3.3-V, or 2.5-V devices. For each configuration device, an option must be set for 5.0-V or 3.3-V operation (EPC4, EPC8, and EPC16 devices are 3.3 V). For EPC1 and EPC1441 configuration devices, the Use Low-Voltage Configuration EPROM option in the Global Project Device Options dialog box (Assign menu) in the MAX+PLUS II software sets this parameter ...
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... V, the nSTATUS and CONF_DONE pull-up resistors must be connected to 3 these configuration devices are powered at 5.0 V, the nSTATUS and CONF_DONE pull-up resistors must be connected to 3 5.0 V. Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet TM feature, which allows an ACEX, APEX, www ...
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... FLEX 6000 Programmable Logic Device Family Data Sheet Mercury Programmable Logic Device Family Data Sheet 3.3-V Operation 3.3-V 5.0-V Tolerant Tolerant Table 9. 3.3-V Tolerant Altera Corporation ...
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... EPC4, EPC8, EPC16, and EPC2 configuration devices can be programmed in-system through its industry-standard 4-pin JTAG interface. ISP capability in the EPC2, EPC4, EPC8, and EPC16 devices provides ease in prototyping and updating APEX II, APEX 20K, Mercury, ACEX 1K, or FLEX device functionality. The EPC8 and EPC16 devices can be programmed in-system via test equipment using SVF Files, Jam STAPL Files ( ...
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... The EPC2 device supports the JTAG instructions shown in Boundary-Scan Testing The ISP circuitry in EPC2, EPC4, EPC8, and EPC16 devices is compatible with tools that support the IEEE Std. 1532. The IEEE Std. 1532 is a standard developed to allow concurrent ISP between multiple PLD vendors. f For EPC4, EPC8, and EPC16 JTAG instruction, refer to the Configuration Devices (EPC4, EPC8, & ...
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... JPXZ t JSSU t JSH t JSCO t JSZX t JSXZ Operating Tables 12 recommended operating conditions, DC operating conditions, and Conditions capacitance for configuration devices. Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet TMS TDI t JCP t t JCH JCL TCK t JPZX TDO t t JSSU JSH ...
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... Configuration Devices for SRAM-based LUT Devices Data Sheet f For EPC4, EPC8, and EPC16 device operating conditions, refer to the Enhanced Configuration Devices (EPC4, EPC8, & EPC16) Data Table 12. Absolute Maximum Ratings Symbol Parameter V Supply voltage input voltage ground current ...
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... Certain EPC2 pins may be driven to 5.75 V when operated with a 3.3-V V (6) The I parameter refers to high-level TTL or CMOS output current; the I OH CMOS output current. (7) Capacitance is sample-tested only. Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet Supply Current Values CC Conditions Conditions ...
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... Min Typ Max 300 100 40 65 100 5 7.7 12 100 Altera Corporation Unit MHz Unit MHz Datasheet pdf - http://www.DataSheet4U.net/ ...
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... CCA f CLK to data enable/disable CDOE t OE low to CLK disable delay OEC t OE low (reset) to nCASC delay NRCAS t OE low time (reset) minimum NRR Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet Conditions Min 100 www.DataSheet.co.kr Conditions Min ...
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... Table 2 to 1.8 V. Figures 4 and 6. Altera Corporation Unit MHz Datasheet pdf - http://www.DataSheet4U.net/ ...
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... Notes: Altera Corporation Configuration Devices for SRAM-Based LUT Devices Data Sheet www.DataSheet.co.kr 35 Datasheet pdf - http://www.DataSheet4U.net/ ...
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... Configuration Devices for SRAM-Based LUT Devices Data Sheet ® 101 Innovation Drive Copyright © 2002 Altera Corporation. All rights reserved. Altera, The Programmable Solutions Company, the San Jose, CA 95134 stylized Altera logo, specific device designations, and all other words and logos that are identified as ...