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EPM240T100C5N

器件型号:EPM240T100C5N
器件类别:嵌入式处理器和控制器    CPLD/FPGA   
厂商:ALTERA(阿尔特拉)
Altera Corporation (ALTERA,阿尔特拉公司) Altera公司1983年成立,总部在美国加州,是专业设计、生产、销售高性能、高密度可编程逻辑器件(PLD)及相应开发工具的一家公司。从公司成立至今,Altera公司一直在同行业中保持着领先地位:1984年Altera公司推出EP300系列——世界上第一个易抹除可编程逻辑器件,成为世界上第一个PLD器件供应商,同时也成功开发了第一个基于PC机的开发系统。目前,Altera公司拥有各类封装的PLD器件超过500种,能够满足用户不同的需要。在提供器件的同时,Altera公司还可以为其用户提供完善的开发系统和良好的售后支持服务。如Altera公司的MAX+PLUSII软件,集软件编辑、调试、器件编程于一体,是可编程器件领域最受欢迎的开发系统。而该公司的ASSESS程序则可以为用户提供所有支持Altera公司器件的卖家产品信息,更加优化了MAX+PLUSII的开发环境。
厂商官网:http://www.altera.com/
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EPM240T100C5N产品介绍

Section I. MAX II Device Family Data
Sheet
This section provides designers with the data sheet specifications for MAX
®
II devices.
The chapters contain feature definitions of the internal architecture, Joint Test Action
Group (JTAG) and in-system programmability (ISP) information, DC operating
conditions, AC timing parameters, and ordering information for MAX II devices.
This section includes the following chapters:
Chapter 1, Introduction
Chapter 2, MAX II Architecture
Chapter 3, JTAG and In-System Programmability
Chapter 4, Hot Socketing and Power-On Reset in MAX II Devices
Chapter 5, DC and Switching Characteristics
Chapter 6, Reference and Ordering Information
Revision History
Refer to each chapter for its own specific revision history. For information about when
each chapter was updated, refer to the Chapter Revision Dates section, which appears
in the complete handbook.
© October 2008
Altera Corporation
MAX II Device Handbook
I–2
Section I: MAX II Device Family Data Sheet
Revision History
MAX II Device Handbook
© October 2008 Altera Corporation
1. Introduction
MII51001-1.8
Introduction
The MAX
®
II family of instant-on, non-volatile CPLDs is based on a 0.18-µm, 6-layer-
metal-flash process, with densities from 240 to 2,210 logic elements (LEs) (128 to 2,210
equivalent macrocells) and non-volatile storage of 8 Kbits. MAX II devices offer high
I/O counts, fast performance, and reliable fitting versus other CPLD architectures.
Featuring MultiVolt core, a user flash memory (UFM) block, and enhanced in-system
programmability (ISP), MAX II devices are designed to reduce cost and power while
providing programmable solutions for applications such as bus bridging, I/O
expansion, power-on reset (POR) and sequencing control, and device configuration
control.
Features
The MAX II CPLD has the following features:
Low-cost, low-power CPLD
Instant-on, non-volatile architecture
Standby current as low as 29 µA
Provides fast propagation delay and clock-to-output times
Provides four global clocks with two clocks available per logic array block (LAB)
UFM block up to 8 Kbits for non-volatile storage
MultiVolt core enabling external supply voltages to the device of either 3.3 V/2.5 V
or 1.8 V
MultiVolt I/O interface supporting 3.3-V, 2.5-V, 1.8-V, and 1.5-V logic levels
Bus-friendly architecture including programmable slew rate, drive strength, bus-
hold, and programmable pull-up resistors
Schmitt triggers enabling noise tolerant inputs (programmable per pin)
I/Os are fully compliant with the Peripheral Component Interconnect Special
Interest Group (PCI SIG) PCI Local Bus Specification, Revision 2.2 for 3.3-V
operation at 66 MHz
Supports hot-socketing
Built-in Joint Test Action Group (JTAG) boundary-scan test (BST) circuitry
compliant with IEEE Std. 1149.1-1990
ISP circuitry compliant with IEEE Std. 1532
© October 2008
Altera Corporation
MAX II Device Handbook
1–2
Chapter 1: Introduction
Features
Table 1–1
shows the MAX II family features.
Table 1–1.
MAX II Family Features
Feature
LEs
Typical Equivalent Macrocells
Equivalent Macrocell Range
UFM Size (bits)
Maximum User I/O pins
t
PD1
(ns)
(1)
f
CNT
(MHz)
(2)
t
SU
(ns)
t
CO
(ns)
Notes to
Table 1–1:
(1) t
PD1
represents a pin-to-pin delay for the worst case I/O placement with a full diagonal path across the device and combinational logic
implemented in a single LUT and LAB that is adjacent to the output pin.
(2) The maximum frequency is limited by the I/O standard on the clock input pin. The 16-bit counter critical delay will run faster than this number.
EPM240
EPM240G
240
192
128 to 240
8,192
80
4.7
304
1.7
4.3
EPM570
EPM570G
570
440
240 to 570
8,192
160
5.4
304
1.2
4.5
EPM1270
EPM1270G
1,270
980
570 to 1,270
8,192
212
6.2
304
1.2
4.6
EPM2210
EPM2210G
2,210
1,700
1,270 to 2,210
8,192
272
7.0
304
1.2
4.6
EPM240Z
240
192
128 to 240
8,192
80
7.5
152
2.3
6.5
EPM570Z
570
440
240 to 570
8,192
160
9.0
152
2.2
6.7
f
For more information about equivalent macrocells, refer to the
MAX II Logic Element to
Macrocell Conversion Methodology
white paper.
MAX II and MAX IIG devices are available in three speed grades: –3, –4, and –5, with
–3 being the fastest. Similarly, MAX IIZ devices are available in two speed grades: –6,
–7, with –6 being faster. These speed grades represent the overall relative
performance, not any specific timing parameter. For propagation delay timing
numbers within each speed grade and density, refer to the
DC and Switching
Characteristics
chapter in the
MAX II Device Handbook.
Table 1–2
shows MAX II device speed-grade offerings.
Table 1–2.
MAX II Speed Grades
Speed Grade
Device
EPM240
EPM240G
EPM570
EPM570G
EPM1270
EPM1270G
EPM2210
EPM2210G
EPM240Z
EPM570Z
v
v
v
v
v
v
v
v
v
v
v
v
v
–3
v
–4
v
–5
v
–6
–7
MAX II Device Handbook
© October 2008 Altera Corporation
Chapter 1: Introduction
Features
1–3
MAX II devices are available in space-saving FineLine BGA, Micro FineLine BGA, and
thin quad flat pack (TQFP) packages (refer to
Table 1–3
and
1–3).
MAX II devices
support vertical migration within the same package (for example, you can migrate
between the EPM570, EPM1270, and EPM2210 devices in the 256-pin FineLine BGA
package). Vertical migration means that you can migrate to devices whose dedicated
pins and JTAG pins are the same and power pins are subsets or supersets for a given
package across device densities. The largest density in any package has the highest
number of power pins; you must lay out for the largest planned density in a package
to provide the necessary power pins for migration. For I/O pin migration across
densities, cross reference the available I/O pins using the device pin-outs for all
planned densities of a given package type to identify which I/O pins can be migrated.
The Quartus
®
II software can automatically cross-reference and place all pins for you
when given a device migration list.
Table 1–3.
MAX II Packages and User I/O Pins
68-Pin
Micro
FineLine
BGA
(1)
54
100-Pin
Micro
FineLine
BGA
(1)
80
76
80
76
100-Pin
FineLine
BGA
(1)
80
76
144-Pin
Micro
FineLine
BGA
(1)
116
256-Pin
Micro
FineLine
BGA
(1)
160
212
160
256-Pin
FineLine
BGA
160
212
204
324-Pin
FineLine
BGA
272
Device
EPM240
EPM240G
EPM570
EPM570G
EPM1270
EPM1270G
EPM2210
EPM2210G
EPM240Z
EPM570Z
100-Pin
TQFP
80
76
144-Pin
TQFP
116
116
Note to
Table 1–3:
(1) Packages available in lead-free versions only.
Table 1–4.
MAX II TQFP, FineLine BGA, and Micro FineLine BGA Package Sizes
68-Pin
Micro
FineLine
BGA
0.5
25
5×5
100-Pin
Micro
FineLine
BGA
0.5
36
6×6
100-Pin
FineLine
BGA
1
121
11 × 11
144-Pin
Micro
FineLine
BGA
0.5
49
7×7
256-Pin
Micro
FineLine
BGA
0.5
121
11 × 11
256-Pin
FineLine
BGA
1
289
17 × 17
324-Pin
FineLine
BGA
1
361
19 × 19
Package
Pitch (mm)
Area (mm2)
Length × width
(mm × mm)
100-Pin
TQFP
0.5
256
16 × 16
144-Pin
TQFP
0.5
484
22 × 22
© October 2008
Altera Corporation
MAX II Device Handbook
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