HD64F3437TF16 Datasheet, PDF(13/752 Page) Hitachi Semiconductor – 12 V must not be applied to the S-mask model (single-power-supply specification), as this may permanently damage the device.

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HD64F3437TF16 Datasheet, PDF (13/752 Pages) Hitachi Semiconductor – 12 V must not be applied to the S-mask model (single-power-supply specification), as this may permanently damage the device.

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Table 3 shows differences in the development environments of the H8/3437F (dual-power-supply

specification) and H8/3437SF (single-power-supply specification).

Table 3 H8/3437F and H8/3437F S-Mask Model Development Environments

Item

Dual-Power-Supply Model:

H8/3437F

E6000 Emulator Hitachi

emulator unit

HS3008EPI60H

User

cable

Hitachi

HS3437ECH61H

Programming

socket adapter

Hitachi

HS3434ESHF1H

Adapter board

Hitachi

HS0008EASF1H/2H

Windows interface Hitachi

software

HS6400FWIW2SF

Single-Power-Supply Model:

H8/3437F S-Mask Model

Hitachi

HS3008EPI60H

Hitachi

HS3437ECH61H

Minato

DATA I/O

Hitachi

HS0008EASF3H

Hitachi

HS6400FWIW2SF

Table 4 shows differences in the pin settings of the H8/3437F (dual-power-supply specification)

and H8/3437SF (single-power-supply specification).

Table 4 H8/3437F and H8/3437F S-Mask Model Pin Settings

Item

Boot mode

Dual-Power-Supply Model:

H8/3437F

H8/3437F

12 V

8

FVPP/STBY

5

MD1

User programming

mode

12 V

H8/3437F

Single-Power-Supply Model:

H8/3437F S-Mask Model

VCC (5 V)

23

24

25

H8/3437SF

P92

P91

P90

VSS

(GND)

5

6

MD1

MD0

There are no state transitions due to pin

states. Transitions should be implemented

by means of register settings by software.

8

FVPP/STBY

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