5M240ZT100C5N Altera, 5M240ZT100C5N Datasheet - Page 89

5M240ZT100C5N

Manufacturer Part Number

5M240ZT100C5N

Description

IC CPLD FLASH, 192, 7.5NS, 118.3MHZ, TQFP-100

Manufacturer

Altera

Series

MAX Vr

Datasheets

1.DK-DEV-5M570ZN.pdf (30 pages)

2.DK-DEV-5M570ZN.pdf (164 pages)

3.5M240ZT100C5N.pdf (72 pages)

Specifications of 5M240ZT100C5N

Cpld Type

FLASH

No. Of Macrocells

192

No. Of I/o's

Propagation Delay

7.5ns

Global Clock Setup Time

4.6ns

Frequency

118.3MHz

Supply Voltage Range

1.71V To 1.89V

Rohs Compliant

Yes

Programmable Type

In System Programmable

Delay Time Tpd(1) Max

7.5ns

Voltage Supply - Internal

1.71 V ~ 1.89 V

Number Of Logic Elements/blocks

240

Number Of Macrocells

192

Number Of Gates

Number Of I /o

Operating Temperature

0°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

100-TQFP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Chapter 5: Using MAX V Devices in Multi-Voltage Systems

MultiVolt I/O Operation

5.0-V Device Compatibility

December 2010 Altera Corporation

MAX V devices allow the device core and I/O blocks to be powered-up with separate

supply voltages. The VCCINT pins supply power to the device core and the VCCIO pins

supply power to the device I/O buffers. The VCCINT pins are powered-up with 1.8 V

for MAX V devices. All the VCCIO pins for a given I/O bank that have MultiVolt

capability must be supplied from the same voltage level (for example, 5.0, 3.3, 2.5, 1.8,

1.5, or 1.2 V).

MAX V devices.

Figure 5–2. Implementing a Multi-Voltage System with a MAX V Device

A MAX V device can drive a 5.0-V TTL device by connecting the VCCIO pins of the

MAX V device to 3.3 V. This is possible because the output high voltage (V

3.3-V interface meets the minimum high-level voltage of 2.4 V of a 5.0-V TTL device.

A MAX V device may not correctly interoperate with a 5.0-V CMOS device if the

output of the MAX V device is connected directly to the input of the 5.0-V CMOS

device. If the MAX V device‘s V

still conducts if the pin is driving high, preventing an external pull-up resistor from

pulling the signal to 5.0 V. To make MAX V device outputs compatible with 5.0-V

CMOS devices, configure the output pins as open-drain pins with the I/O clamp

diode enabled and use an external pull-up resistor.

Notes to

(1) MAX V devices can drive a 5.0-V transistor-to-transistor logic (TTL) input when V

(2) MAX V devices can be 5.0-V tolerant with the use of an external resistor and the internal I/O clamp diode on

CMOS, you must have an open-drain setting with an internal I/O clamp diode and external resistor.

5M1270Z and 5M2210Z devices.

Figure

5–2:

Figure 5–2

Device

5.0-V

shows how to implement a multiple-voltage system for

CCIO

OUT

is greater than V

Power Supply

MAX V

Device

1.8-V

CCINT

CCIO

, the PMOS pull-up transistor

CCIO

3.3-, 2.5-, 1.8-,

(Note

1.5-, 1.2-V

= 3.3 V. To drive a 5.0-V

Device

MAX V Device Handbook

1),

(2)

) of a

5–3

5M240ZT100C5N Altera, 5M240ZT100C5N Datasheet - Page 89

5M240ZT100C5N

Specifications of 5M240ZT100C5N

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