TMPR4937XBG-300 Toshiba, TMPR4937XBG-300 Datasheet - Page 30

TMPR4937XBG-300

Manufacturer Part Number

TMPR4937XBG-300

Description

Manufacturer

Toshiba

Datasheet

1.TMPR4937XBG-300.pdf (552 pages)

Specifications of TMPR4937XBG-300

Family Name

TX49

Device Core Size

64b

Frequency (max)

300MHz

Instruction Set Architecture

RISC

Supply Voltage 1 (typ)

1.5V

Operating Supply Voltage (max)

1.6V

Operating Supply Voltage (min)

1.4V

Operating Temp Range

0C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

484

Package Type

BGA

Lead Free Status / Rohs Status

Compliant

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3.3.8

3.3.9

The failure rate of semiconductor devices is greatly increased as operating temperatures increase. As shown in

Figure 2, the internal thermal stress on a device is the sum of the ambient temperature and the temperature rise

due to power dissipation in the device. Therefore, to achieve optimum reliability, observe the following

precautions concerning thermal design:

(1) Keep the ambient temperature (Ta) as low as possible.

(2) If the device’s dynamic power dissipation is relatively large, select the most appropriate circuit board

(3) Derate the device’s absolute maximum ratings to minimize thermal stress from power dissipation.

When connecting inputs and outputs between devices, make sure input voltage (V

different supply voltages, such as in a dual-power-supply system, be aware that erroneous power-on and power-

off sequences can result in device breakdown. For details of how to interface particular devices, consult the

relevant technical datasheets and databooks. If you have any questions or doubts about interfacing, contact your

nearest Toshiba office or distributor.

Thermal design

material, and consider the use of heat sinks or of forced air cooling. Such measures will help lower the

thermal resistance of the package.

θja = θjc + θca

θja = (Tj–Ta) / P

θjc = (Tj–Tc) / P

θca = (Tc–Ta) / P

in which θja = thermal resistance between junction and surrounding air (°C/W)

Interfacing

) levels are matched. Otherwise, the devices may malfunction. When connecting devices operating at

θjc = thermal resistance between junction and package surface, or internal thermal

θca = thermal resistance between package surface and surrounding air, or external

Tj = junction temperature or chip temperature (°C)

Tc = package surface temperature or case temperature (°C)

Ta = ambient temperature (°C)

P = power dissipation (W)

resistance (°C/W)

thermal resistance (°C/W)

Figure 2 Thermal resistance of package

3 General Safety Precautions and Usage Considerations

θjc

θca

3-8

) and output voltage

TMPR4937XBG-300 Toshiba, TMPR4937XBG-300 Datasheet - Page 30

TMPR4937XBG-300

Specifications of TMPR4937XBG-300

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