EPM570ZM100C7N Altera, EPM570ZM100C7N Datasheet - Page 48

EPM570ZM100C7N

Manufacturer Part Number

EPM570ZM100C7N

Description

IC MAX IIZ CPLD 570 LE 100-MBGA

Manufacturer

Altera

Series

MAX® IIr

Datasheets

1.EPM240GT100C5N.pdf (6 pages)

2.EPM240GT100C5N.pdf (88 pages)

Specifications of EPM570ZM100C7N

Programmable Type

In System Programmable

Delay Time Tpd(1) Max

9.0ns

Voltage Supply - Internal

1.71 V ~ 1.89 V

Number Of Logic Elements/blocks

570

Number Of Macrocells

440

Number Of I /o

Operating Temperature

0°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

100-MBGA

Voltage

1.8V

Memory Type

FLASH

Number Of Logic Elements/cells

570

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Features

Other names

544-2450

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3–6

Table 3–4. MAX II Device Family Programming Times

UFM Programming

In-System Programming Clamp

MAX II Device Handbook

Erase + Program (1 MHz)

Erase + Program (10 MHz)

Verify (1 MHz)

Verify (10 MHz)

Complete Program Cycle (1 MHz)

Complete Program Cycle (10 MHz)

Description

Table 3–4

execute the algorithm vectors in hardware. Software-based programming tools used

with download cables are slightly slower because of data processing and transfer

limitations.

The Quartus II software, with the use of POF, Jam, or JBC files, supports

programming of the user flash memory (UFM) block independent of the logic array

design pattern stored in the CFM block. This allows updating or reading UFM

contents through ISP without altering the current logic array design, or vice versa. By

default, these programming files and methods will program the entire flash memory

contents, which includes the CFM block and UFM contents. The stand-alone

embedded Jam STAPL player and Jam Byte-Code Player provides action commands

for programming or reading the entire flash memory (UFM and CFM together) or

each independently.

For more information, refer to the

chapter in the MAX II Device Handbook.

By default, the IEEE 1532 instruction used for entering ISP automatically tri-states all

I/O pins with weak pull-up resistors for the duration of the ISP sequence. However,

some systems may require certain pins on MAX II devices to maintain a specific DC

logic level during an in-field update. For these systems, an optional in-system

programming clamp instruction exists in MAX II circuitry to control I/O behavior

during the ISP sequence. The in-system programming clamp instruction enables the

device to sample and sustain the value on an output pin (an input pin would remain

tri-stated if sampled) or to explicitly set a logic high, logic low, or tri-state value on

any pin. Setting these options is controlled on an individual pin basis using the

Quartus II software.

For more information, refer to the

chapter in the MAX II Device Handbook.

shows the programming times for MAX II devices using in-circuit testers to

EPM240G

EPM240Z

EPM240

1.72

1.65

0.09

0.01

1.81

1.66

EPM570G

EPM570Z

EPM570

2.16

1.99

0.17

0.02

2.33

2.01

Using Jam STAPL for ISP via an Embedded Processor

Real-Time ISP and ISP Clamp for MAX II Devices

EPM1270G

EPM1270

2.90

2.58

0.30

0.03

3.20

2.61

Chapter 3: JTAG and In-System Programmability

EPM2210G

EPM2210

3.92

3.40

0.49

0.05

4.41

3.45

In System Programmability

Unit

sec

EPM570ZM100C7N Altera, EPM570ZM100C7N Datasheet - Page 48

EPM570ZM100C7N

Specifications of EPM570ZM100C7N

Available stocks

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