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/*
(this acts as a trampoline to 2x i8255 chips)
Manufacturer: Fujitsu
Part Number: MB89363 / MB89363B / MB89363R
Package: Surface Mount QFP80 / QFP64P (MB89363R)
Description: 8-bit x 3 x 2 (6 x 8-bit) parallel data I/O port VLSI chip
Parallel Communication Interface
Extended I/O
Note: MB89363B is compatible with 8255
Pin Assignment:
+5v
P P P P P P P P P V P P P P P P P P P
N N 5 4 4 4 4 4 4 4 4 C N 1 1 1 1 1 1 1 1 2 N N
C C 3 0 1 2 3 4 5 6 7 C C 7 6 5 4 3 2 1 0 3 C C
| | ^ ^ ^ ^ ^ ^ ^ ^ ^ | | ^ ^ ^ ^ ^ ^ ^ ^ ^ | |
| | | | | | | | | | | | | | | | | | | | | | | |
| | v v v v v v v v v | | v v v v v v v v v | |
.-------------------------------------------------------.
| 6 6 6 6 6 5 5 5 5 5 5 5 5 5 5 4 4 4 4 4 4 4 4 4 |
| 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 |
P52 <-> | 65 40 | <-> P22
P51 <-> | 66 39 | <-> P21
P50 <-> | 67 38 | <-> P20
P54 <-> | 68 37 | <-> P24
P55 <-> | 69 36 | <-> P25
P56 <-> | 70 35 | <-> P26
P57 <-> | 71 34 | <-> P27
NC --- | 72 MB89363B 33 | --- NC
NC --- | 73 32 | <-- RSLCT1
GND --> | 74 31 | <-- RSLCT0
CS2 --> | 75 30 | <-- GND
R --> | 76 29 | <-- CS1
P30 <-> | 77 28 | <-> P00
P31 <-> | 78 27 | <-> P01
P32 <-> | 79 26 | <-> P02
P33 <-> | 80 25 | <-> P03
\ 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 |
\ 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 |
-----------------------------------------------------'
^ ^ ^ ^ ^ ^ | | ^ | ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ |
| | | | | | | | | | | | | | | | | | | | | | | |
v v v v | | | | | | | v v v v v v v v v v v v |
P P P P W R N N R N O D D D D D D D D P P P P N
3 3 3 3 S C C H C U B B B B B B B B 0 0 0 0 C
4 5 6 7 T / S 0 1 2 3 4 5 6 7 7 6 5 4
R /
L I
N
S
Block Diagram / Pin Descriptions:
http://www.mess.org/_media/datasheets/fujitsu/mb89363b_partial.pdf
D.C. Characteristics:
(Recommended operating conditions unless otherwise noted)
(VCC = +5V +- 10%, GND = 0V, TA = -40o C to 85o C)
Value
Parameter Symbol Min Max Unit Test Condition
----------------------------------------------------------------------------------
Input Low Voltage ViL -0.3 0.8 V
Input High Voltage ViH 2.2 VCC +0.3 V
Output Low Voltage VoL - 0.4 V IoL = 2.5mA
Output High Voltage VoH 3.0 - V IoH =-2.5mA
Sources:
http://www.emb-tech.co.jp/pc104/96dio.pdf
http://www.pb5800.com/resources/2350ser01.pdf
http://www.diagramasde.com/diagramas/otros2/TS-850S%20Service%20Manual%20.pdf
*/
#include "emu.h"
#include "machine/mb89363b.h"
extern const device_type MB89363B = &device_creator<mb89363b_device>;
mb89363b_device::mb89363b_device(const machine_config &mconfig, const char *tag, device_t *owner, UINT32 clock)
: device_t(mconfig, MB89363B, "MB89363B", tag, owner, clock, "mb89363b", __FILE__),
m_i8255_a(*this, "i8255_a"),
m_i8255_b(*this, "i8255_b"),
m_in_a_pa_cb(*this),
m_in_a_pb_cb(*this),
m_in_a_pc_cb(*this),
m_out_a_pa_cb(*this),
m_out_a_pb_cb(*this),
m_out_a_pc_cb(*this),
m_in_b_pa_cb(*this),
m_in_b_pb_cb(*this),
m_in_b_pc_cb(*this),
m_out_b_pa_cb(*this),
m_out_b_pb_cb(*this),
m_out_b_pc_cb(*this)
{
}
READ8_MEMBER(mb89363b_device::i8255_a_port_a_r) { return m_in_a_pa_cb(space, offset); }
READ8_MEMBER(mb89363b_device::i8255_a_port_b_r) { return m_in_a_pb_cb(space, offset); }
READ8_MEMBER(mb89363b_device::i8255_a_port_c_r) { return m_in_a_pc_cb(space, offset); }
WRITE8_MEMBER(mb89363b_device::i8255_a_port_a_w) { m_out_a_pa_cb(space, offset, data); }
WRITE8_MEMBER(mb89363b_device::i8255_a_port_b_w) { m_out_a_pb_cb(space, offset, data); }
WRITE8_MEMBER(mb89363b_device::i8255_a_port_c_w) { m_out_a_pc_cb(space, offset, data); }
READ8_MEMBER(mb89363b_device::i8255_b_port_a_r) { return m_in_b_pa_cb(space, offset); }
READ8_MEMBER(mb89363b_device::i8255_b_port_b_r) { return m_in_b_pb_cb(space, offset); }
READ8_MEMBER(mb89363b_device::i8255_b_port_c_r) { return m_in_b_pc_cb(space, offset); }
WRITE8_MEMBER(mb89363b_device::i8255_b_port_a_w) { m_out_b_pa_cb(space, offset, data); }
WRITE8_MEMBER(mb89363b_device::i8255_b_port_b_w) { m_out_b_pb_cb(space, offset, data); }
WRITE8_MEMBER(mb89363b_device::i8255_b_port_c_w) { m_out_b_pc_cb(space, offset, data); }
READ8_MEMBER( mb89363b_device::read )
{
if (offset & 4)
return m_i8255_b->read(space, offset & 3);
else
return m_i8255_a->read(space, offset & 3);
}
WRITE8_MEMBER( mb89363b_device::write )
{
if (offset & 4)
m_i8255_b->write(space, offset & 3, data);
else
m_i8255_a->write(space, offset & 3, data);
}
static MACHINE_CONFIG_FRAGMENT( mb89363b )
MCFG_DEVICE_ADD("i8255_a", I8255, 0)
MCFG_I8255_IN_PORTA_CB(READ8(mb89363b_device, i8255_a_port_a_r))
MCFG_I8255_IN_PORTB_CB(READ8(mb89363b_device, i8255_a_port_b_r))
MCFG_I8255_IN_PORTC_CB(READ8(mb89363b_device, i8255_a_port_c_r))
MCFG_I8255_OUT_PORTA_CB(WRITE8(mb89363b_device, i8255_a_port_a_w))
MCFG_I8255_OUT_PORTB_CB(WRITE8(mb89363b_device, i8255_a_port_b_w))
MCFG_I8255_OUT_PORTC_CB(WRITE8(mb89363b_device, i8255_a_port_c_w))
MCFG_DEVICE_ADD("i8255_b", I8255, 0)
MCFG_I8255_IN_PORTA_CB(READ8(mb89363b_device, i8255_b_port_a_r))
MCFG_I8255_IN_PORTB_CB(READ8(mb89363b_device, i8255_b_port_b_r))
MCFG_I8255_IN_PORTC_CB(READ8(mb89363b_device, i8255_b_port_c_r))
MCFG_I8255_OUT_PORTA_CB(WRITE8(mb89363b_device, i8255_b_port_a_w))
MCFG_I8255_OUT_PORTB_CB(WRITE8(mb89363b_device, i8255_b_port_b_w))
MCFG_I8255_OUT_PORTC_CB(WRITE8(mb89363b_device, i8255_b_port_c_w))
MACHINE_CONFIG_END
machine_config_constructor mb89363b_device::device_mconfig_additions() const
{
return MACHINE_CONFIG_NAME( mb89363b );
}
void mb89363b_device::device_start()
{
m_in_a_pa_cb.resolve_safe(0xff);
m_in_a_pb_cb.resolve_safe(0xff);
m_in_a_pc_cb.resolve_safe(0xff);
m_out_a_pa_cb.resolve_safe();
m_out_a_pb_cb.resolve_safe();
m_out_a_pc_cb.resolve_safe();
m_in_b_pa_cb.resolve_safe(0xff);
m_in_b_pb_cb.resolve_safe(0xff);
m_in_b_pc_cb.resolve_safe(0xff);
m_out_b_pa_cb.resolve_safe();
m_out_b_pb_cb.resolve_safe();
m_out_b_pc_cb.resolve_safe();
}
void mb89363b_device::device_reset()
{
}
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