NEC UPD31172F1-48-FN

DATA SHEET
MOS INTEGRATED CIRCUIT
µPD31172
TM
VRC4172
TM
COMPANION CHIP FOR VR4121
DESCRIPTION
The µPD31172 (commercial name: VRC4172) is a companion chip designed for NEC’s µPD30121 microprocessor
(commercial name: VR4121).
The VRC4172 has the following functions available on chip: a USB host controller, an IEEE1284 parallel controller,
a 16550 serial controller, a PS/2 controller, general-purpose ports (GPIO), programmable chip select (PCS), and a
PWM controller (a duty modulated light pulse generation function for LCD backlighting).
The VRC4172 can be directly connected to the VR4121, allowing a reduction in the man-hours required for
development of a Windows™ CE system.
Detailed function descriptions are provided in the following user’s manual. Be sure to read it before
designing.
• VRC4172 User’s Manual (U14386E)
FEATURES
• Directly connectable to VR4121
• On-chip USB host controller
• USB ports: 2
• Compliant with the USB OpenHCI specifications, release 1.0
• Communicates with USB device asynchronously with host CPU
• Full-speed (12 Mbps) and low-speed (1.5 Mbps) modes supported
• System clock: 48 MHz
• On-chip PS/2 controller
• On-chip IEEE1284 parallel controller
• On-chip 16550 serial controller
• General-purpose ports (GPIO): 24
• On-chip PWM controller
• Duty modulated light pulse generation function for LCD backlighting
• Internal maximum operating frequency: 48 MHz
• Power supply voltage: VDD = 3.3 V ± 0.3 V
• Package: 208-pin plastic FBGA
APPLICATIONS
• Battery-driven portable information devices
• Peripheral devices for PCs, etc.
The information in this document is subject to change without notice. Before using this document, please
confirm that this is the latest version.
Not all devices/types available in every country. Please check with local NEC representative for
availability and additional information.
Document No. U14388EJ2V0DS00 (2nd edition)
Date Published May 2000 N CP(K)
Printed in Japan
The mark
shows major revised points.
µPD31172
ORDERING INFORMATION
Part Number
Package
µPD31172F1-48-FN
Internal Maximum Operating Frequency
208-pin plastic FBGA (15 × 15)
48 MHz
PIN CONFIGURATION
• 208-pin plastic FBGA (15 × 15)
µPD31172F1-48-FN
Bottom View
Top View
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
U T R P N M L K J H G F E D C B A
A B C D E F G H J K L M N P R T U
Index mark
2
Data Sheet U14388EJ2V0DS00
µPD31172
Symbol
Name
Symbol
Name
Symbol
Name
Symbol
Name
A1
GND
C2
GND
E3
CD3
J15
GND
A2
AUTOFEED#
C3
STROBE#
E4
CD7
J16
UUCAS#
A3
PE
C4
ACK#
E14
GND
J17
ROMCS3#
A4
INIT#
C5
ERROR#
E15
PPON1
K1
GPIO14
A5
IOCHRDY
C6
AD6
E16
OCI2
K2
GPIO10
A6
AD19
C7
AD7
E17
USBRST#
K3
GPIO7
A7
AD20
C8
AD8
F1
GPIO22
K4
GPIO3
A8
AD21
C9
VDD
F2
GPIO18
K14
EXCS3#
A9
AD22
C10
AD9
F3
CD2
K15
EXCS0#
A10
AD23
C11
AD10
F4
CD6
K16
SCAS#
A11
AD24
C12
AD11
F14
SCLK
K17
SRAS#
Note 1
C13
LCDBAK
F15
PPON2
L1
GPIO13
Note 1
Reserved
A12
A13
Reserved
C14
SMI#
F16
LCAS#
L2
GPIO9
A14
DP1
C15
USBINT#
F17
MRAS0#
L3
GPIO6
A15
DN2
C16
GND
G1
GPIO21
L4
GPIO2
A16
DP2
C17
RD#
G2
GPIO17
L14
EXCS4#
A17
LCDRDY
D1
GND
G3
CD1
L15
EXCS1#
B1
PS2CLK
D2
SELECTIN#
G4
CD5
L16
Reserved (0)
B2
VDD
D3
DIR1284
G14
Reserved
Note 1
L17
GND
Note 1
B3
VDD
D4
PS2INT
G15
Reserved
M1
GPIO12
B4
BUSY
D5
SELECT
G16
UCAS#
M2
GPIO8
B5
GND
D6
AD0
G17
MRAS1#
M3
GPIO5
B6
AD12
D7
AD1
H1
GPIO20
M4
GPIO1
B7
AD13
D8
AD2
H2
GPIO16
M14
EXCS5#
B8
AD14
D9
GND
H3
CD0
M15
EXCS2#
B9
AD15
D10
AD3
H4
CD4
M16
Reserved (0)
B10
AD16
D11
AD4
H14
Reserved
M17
CKE
B11
AD17
D12
AD5
H15
ARBCLKSEL
N1
RESET
B12
AD18
D13
VDD
H16
ULCAS#
N2
BUSRQ0#
B13
GND
D14
IEN
H17
ROMCS2#
N3
GPIO4
B14
DN1
D15
WAKE
J1
GPIO15
N4
GPIO0
B15
VDD
D16
OCI1
J2
GPIO11
N14
GND
B16
GND
D17
LCDCS#
J3
VDD
N15
DSR#
B17
WR#
E1
GPIO23
J4
GND
N16
RXD
C1
PS2DATA
E2
GPIO19
J14
VDD
N17
RI#
Note 1
Note 2
Note 2
Notes 1. Either leave pins A12, A13, G14, G15, and H14 open, or input 0 V.
2. Always input 0 V to pins L16 and M16.
Remark
# indicates active low.
Data Sheet U14388EJ2V0DS00
3
µPD31172
Symbol
Symbol
Name
Symbol
Name
Symbol
Name
P1
HOLDRQ#
R1
HOLDAK#
T1
BUSCLK
U1
IOCS16#
P2
BUSAK0#
R2
GND
T2
GND
U2
IRQ
P3
BUSRQ1#
R3
BUSAK1#
T3
VDD
U3
IOR#
P4
GND
R4
DATA23
T4
VDD
U4
IOW#
P5
DATA31
R5
DATA22
T5
DATA15
U5
GND
P6
DATA30
R6
VDD
T6
DATA14
U6
DATA7
P7
DATA29
R7
DATA21
T7
GND
U7
DATA6
P8
DATA28
R8
DATA20
T8
DATA13
U8
DATA5
P9
VDD
R9
GND
T9
DATA12
U9
DATA4
P10
DATA27
R10
DATA19
T10
DATA11
U10
DATA3
P11
DATA26
R11
DATA18
T11
DATA10
U11
DATA2
P12
DATA25
R12
VDD
T12
GND
U12
DATA1
P13
DATA24
R13
DATA17
T13
DATA9
U13
DATA0
P14
CLKOUT48M
R14
DATA16
T14
DATA8
U14
GND
P15
DCD#
R15
CTS#
T15
VDD
U15
DTR#
P16
TXD
R16
GND
T16
VDD
U16
RTS#
P17
INTRP
R17
XOUT48M
T17
XIN48M
U17
GND
Remark
4
Name
# indicates active low.
Data Sheet U14388EJ2V0DS00
µPD31172
PIN IDENTIFICATION
ACK#:
Acknowledge
MRAS (0:1)#:
DRAM Row Address Strobe
AD (0:24):
Address Bus
OCI (1:2):
Over Current Interrupt
ARBCLKSEL:
Arbitration Clock Select
PE:
Paper End
AUTOFEED#:
Autofeed
PPON (1:2):
Port Power ON
BUSAK (0:1)#:
Bus Acknowledge
PS2CLK:
PS2 Clock
BUSCLK:
System Bus Clock
PS2DATA:
PS2 Data
BUSRQ (0:1)#:
Bus Request
PS2INT:
PS2 Interrupt
BUSY:
Busy
RD#:
Read
CD (0:7):
Centronics Data
RESET:
Reset
CKE:
Clock Enable
RI#:
Ring Indicator
CLKOUT48M:
Clock Out of 48 MHz
ROMCS (2:3)#:
ROM Chip Select
CTS#:
Clear to Send
RTS#:
Request to Send
DATA (0:31):
Data Bus
RXD:
Receive Data
DCD#:
Data Carrier Detect
SCAS#:
Column Address Strobe for
SCLK:
SDRAM Clock
DIR1284:
Direction of 1284
DN (1:2):
USB D−
SDRAM
DP (1:2):
USB D+
SELECT:
Select
DSR#:
Data Set Ready
SELECTIN#:
Select in
DTR#:
Data Terminal Ready
SMI#:
USB System Interrupt
ERROR#:
Error
SRAS#:
Row Address Strobe for
EXCS (0:5)#:
External CS
GND:
Ground
GPIO (0:23):
General Purpose I/O
TXD:
Transmit Data
HOLDAK#:
Hold Acknowledge
UCAS#:
Upper Column Address Strobe
HOLDRQ#:
Hold Request
ULCAS#:
Lower Byte of Upper Column
IEN:
USB Input Enable
SDRAM
STROBE#:
Strobe
Address Strobe
INIT#
Initialize
USBINT#:
USB Interrupt
INTRP:
Interrupt
USBRST#:
USB Reset
IOCHRDY:
I/O Channel Ready
UUCAS#:
IOCS16#:
IO Chip Select 16
Upper Byte of Upper Column
Address Strobe
IOR#:
I/O Read
VDD:
Power Supply Voltage
IOW#:
I/O Write
WAKE:
Wake Up Interrupt
IRQ:
I/O Request
WR#:
Write
LCAS#:
Lower Column Address Strobe
XIN48M:
Clock In of 48 MHz
LCDBAK:
LCD Back Light
XOUT48M:
Clock Out of 48 MHz
LCDCS#:
LCD Chip Select
LCDRDY:
LCD Ready
Remark
# indicates active low.
Data Sheet U14388EJ2V0DS00
5
µPD31172
INTERNAL BLOCK DIAGRAM AND EXTERNAL BLOCK CONNECTION EXAMPLE
48 MHz
DRAM
controller
PCI bus
controller
SDRAM
Internal PCI bus
VRC4172
USB host
controller
(OpenHCI 1.0)
IEEE1284
parallel controller
16550
serial controller
System bus
VR4121
2 ports
.. .. .. ..
RS-232-C
driver
PS/2 controller
PWM controller
LCD backlight
PCS (6 bits)
GPIO (24 bits)
PMU
ICU
6
Data Sheet U14388EJ2V0DS00
µPD31172
CONTENTS
1.
PIN FUNCTIONS................................................................................................................................... 8
1.1
Pin Function List ....................................................................................................................................... 8
1.2
Special Status Pins ................................................................................................................................. 11
1.3
External Processing of Pins and Drive Capacity.................................................................................. 13
1.4
Recommended Connection of Unused Pins......................................................................................... 15
2.
ELECTRICAL SPECIFICATIONS...................................................................................................... 16
3.
PACKAGE DRAWING ....................................................................................................................... 38
4.
RECOMMENDED SOLDERING CONDITIONS................................................................................ 39
Data Sheet U14388EJ2V0DS00
7
µPD31172
1. PIN FUNCTIONS
1.1 Pin Function List
(1) System bus interface signals
Signal Name
I/O
Function
SCLK
I/O
This is the SDRAM operating clock.
AD (0:24)
I/O
These form a 25-bit address bus.
I/O
These form a 32-bit data bus.
DATA (0:31)
LCDCS#
RD#
Input
I/O
This is the LCD chip select signal. This signal becomes active when the VR4121 accesses the
LCD using the AD or data bus.
• Output: This signal becomes active when the VRC4172 accesses SDRAM.
• Input:
WR#
I/O
• Output: This signal becomes active when the VRC4172 writes data to SDRAM.
• Input:
LCDRDY
This signal becomes active when the VR4121 writes data to the VRC4172’s PCI host
bridge.
This is the LCD ready signal. This signal becomes active when a state is entered whereby the
VRC4172 can acknowledge an access to the LCD area from the VR4121.
ROMCS (2:3)#
I/O
This is an SDRAM chip select signal.
CKE
I/O
This is the SDRAM clock enable signal.
UUCAS#
I/O
This is an SDRAM DQM signal. This signal controls the I/O buffers for the DATA (24:31) pins.
ULCAS#
I/O
This is an SDRAM DQM signal. This signal controls the I/O buffers for the DATA (16:23) pins.
MRAS (0:1)#
I/O
This is an SDRAM chip select signal.
UCAS#
I/O
This is an SDRAM DQM signal. This signal controls the I/O buffers for the DATA (8:15) pins.
LCAS#
I/O
This is an SDRAM DQM signal. This signal controls the I/O buffers for the DATA (0:7) pins.
IOR#
Input
This is the system bus I/O read signal. This signal becomes active when any resource except
the USB inside the VRC4172 is accessed.
IOW#
Input
This is the system bus I/O write signal. This signal becomes active when any resource except
the USB inside the VRC4172 is accessed.
Input
This is the system bus reset signal.
RESET
8
Output
This signal becomes active when the VR4121 reads data from the VRC4172’s PCI
host bridge.
IOCS16#
Output
This is the dynamic bus-sizing request signal.
IOCHRDY
Output
This is the system bus ready signal.
HOLDRQ#
Output
This is the system bus access right request signal.
HOLDAK#
Input
This is the system bus access enable signal.
SRAS#
I/O
This is the SDRAM RAS signal.
SCAS#
I/O
This is the SDRAM CAS signal.
BUSRQ (0:1)#
Input
This is a signal input from the external bus master requesting access to the system bus.
BUSAK (0:1)#
Output
This is a signal output to the external bus master permitting access to the system bus.
INTRP
Output
This is an interrupt request signal from the 16550 serial controller or the IEEE1284 parallel
controller.
IRQ
Output
This is an interrupt request signal from the general-purpose ports (GPIO (0:23)) or the
IEEE1284 parallel controller.
USBINT#
Output
This is an interrupt request signal from the USB host controller.
PS2INT
Output
This is an interrupt request signal from the PS/2 controller.
BUSCLK
Input
This is the system bus clock.
ARBCLKSEL
Input
This is a clock select signal for arbitrating the system bus (controls the HOLDRQ# signal)
(1: Internal clock used, 0: BUSCLK used)
Data Sheet U14388EJ2V0DS00
µPD31172
(2) USB Interface Signals
Signal Name
I/O
Function
DP (1:2)
I/O
This is the positive data signal.
DN (1:2)
I/O
This is the negative data signal.
PPON (1:2)
Output
This is the USB route-hub-port power supply control signal.
OCI (1:2)
Input
This is the USB route-hub-port over-current status signal. Make this signal active when the
current flowing through the Vbus line of the USB exceeds the reference value.
IEN
Input
This is the USB buffer input enable signal. Make this signal active when the input signal to the
USB port is validated.
WAKE
Output
This is a wakeup interrupt request signal.
SMI#
Output
This is a system interrupt request signal.
Input
This is the reset signal for the USB clock.
USBRST#
(3) IEEE1284 Interface Signals
Signal Name
I/O
Function
CD (0:7)
I/O
These are data signals
STROBE#
I/O
This is the data strobe signal.
ACK#
I/O
This is the acknowledge signal.
BUSY
I/O
This is the busy signal.
PE
I/O
This is the paper-end signal.
SELECT
I/O
This is the select signal.
AUTOFEED#
I/O
This is the autofeed signal.
SLECTIN#
I/O
This is the select input signal.
ERROR#
I/O
This is the fault signal.
INIT#
I/O
This is the initialization signal.
DIR1284
Output
This signal outputs the transfer direction status.
(4) RS-232-C Interface Signals
Signal Name
I/O
Function
RXD
Input
This is the receive data signal.
CTS#
Input
This is the transmit enable signal.
DSR#
Input
This is the data set ready signal.
TXD
Output
This is the transmit data signal.
RTS#
Output
This is the transmit request signal.
DTR#
Output
This is the terminal equipment ready signal.
DCD#
Input
This is the carrier detection signal.
RI#
Input
This is the call display signal.
Data Sheet U14388EJ2V0DS00
9
µPD31172
(5) PS/2 Interface Signals
Signal Name
I/O
Function
PS2CLK
I/O
This is the PS/2 clock signal.
PS2DATA
I/O
This is the PS/2 data signal.
(6) General-Purpose Port Signals
Signal Name
GPIO (0:23)
I/O
I/O
Function
These are general-purpose I/O signals.
(7) General-Purpose Chip Select Signals
Signal Name
EXCS (0:5)#
I/O
Output
Function
These are general-purpose chip select signals.
(8) LCD Interface Signals
Signal Name
LCDBAK
I/O
Output
Function
These are signals for controlling the LCD backlighting.
(9) Clock Signals
Signal Name
XIN48M
I/O
Input
Function
This is the 48 MHz oscillator input pin. Connect to one side of a crystal resonator.
XOUT48M
Output
This is the 48 MHz oscillator output pin. Connect to the other side of the crystal resonator.
CLKOUT48M
Output
This is the 48 MHz clock output for the FIR of the VR4121.
10
Data Sheet U14388EJ2V0DS00
µPD31172
1.2 Special Status Pins
(1/2)
Signal Name
After Reset
When HOLDAK# = 1
SCLK
Hi-Z
Hi-Z
AD (0:24)
Hi-Z
Hi-Z
DATA (0:31)
Hi-Z
Hi-Z
−
−
RD#
Hi-Z
Hi-Z
WR#
Hi-Z
Hi-Z
LCDRDY
Hi-Z
Hi-Z
ROMCS (2:3)#
Hi-Z
Hi-Z
CKE
Hi-Z
Hi-Z
UUCAS#
Hi-Z
Hi-Z
ULCAS#
Hi-Z
Hi-Z
MRAS (0:1)#
Hi-Z
Hi-Z
LCDCS#
UCAS#
Hi-Z
Hi-Z
LCAS#
Hi-Z
Hi-Z
IOR#
−
−
IOW#
−
−
RESET
−
−
IOCS16#
Hi-Z
Hi-Z
IOCHRDY
Hi-Z
Hi-Z
HOLDRQ#
1
1
−
−
SRAS#
Hi-Z
Hi-Z
SCAS#
Hi-Z
Hi-Z
BUSRQ (0:1)#
−
−
BUSAK (0:1)#
1
Normal operation
INTRP
0
Normal operation
IRQ
0
Normal operation
USBINT#
1
Normal operation
PS2INT
0
Normal operation
BUSCLK
−
−
ARBCLKSEL
−
−
DP (1:2)
1
Normal operation
DN (1:2)
0
Normal operation
PPON (1:2)
0
Normal operation
OCI (1:2)
−
−
IEN
−
−
WAKE
0
Normal operation
HOLDAK#
Remark 0: Low level, 1: High level, Hi-Z: High impedance
Data Sheet U14388EJ2V0DS00
11
µPD31172
(2/2)
Signal Name
After Reset
When HOLDAK# = 1
SMI#
1
Normal operation
USBRST#
−
−
CD (0:7)
Hi-Z
Normal operation
STROBE#
Hi-Z
Normal operation
ACK#
Hi-Z
Normal operation
BUSY
Hi-Z
Normal operation
PE
Hi-Z
Normal operation
SELECT
Hi-Z
Normal operation
AUTOFEED#
Hi-Z
Normal operation
SELECTIN#
Hi-Z
Normal operation
ERROR#
Hi-Z
Normal operation
INIT#
Hi-Z
Normal operation
DIR1284
0
Normal operation
RXD
−
−
CTS#
−
−
DSR#
−
−
TXD
1
Normal operation
RTS#
1
Normal operation
DTR#
1
Normal operation
DCD#
−
−
RI#
−
−
PS2CLK
0
Normal operation
PS2DATA
Hi-Z
Normal operation
GPIO (0:23)
Hi-Z
Normal operation
EXCS (0:5)#
1
Normal operation
LCDBAK
0
Normal operation
CLKOUT48M
1
Normal operation
Remark 0: Low level, 1: High level, Hi-Z: High impedance
12
Data Sheet U14388EJ2V0DS00
µPD31172
1.3 External Processing of Pins and Drive Capacity
When using the VRC4172, process the pins externally, as shown in the table below.
(1/2)
Signal Name
External Processing
Drive Capacity
Tolerance
SCLK
−
80 pF
3V
AD (0:24)
−
80 pF
3V
DATA (0:31)
−
80 pF
3V
LCDCS#
−
3V
Note 1
80 pF
3V
Note 1
80 pF
3V
Pull up
Pull up
RD#
Pull up
WR#
LCDRDY
Pull up
40 pF
3V
ROMCS (2:3)#
Pull up
80 pF
3V
CKE
Pull down
80 pF
3V
UUCAS#
Pull up
Note 1
80 pF
3V
ULCAS#
Pull up
Note 1
80 pF
3V
Note 1
80 pF
3V
Note 1
80 pF
3V
Note 1
80 pF
3V
Note 1
−
3V
Note 1
−
3V
MRAS (0:1)#
Pull up
Pull up
UCAS#
Pull up
LCAS#
Pull up
IOR#
Pull up
IOW#
−
−
3V
IOCS16#
Pull up
40 pF
3V
IOCHRDY
Pull up
40 pF
3V
HOLDRQ#
−
40 pF
3V
HOLDAK#
Pull up
RESET
−
3V
Note 1
80 pF
3V
Note 1
80 pF
3V
Pull up
SRAS#
Pull up
SCAS#
BUSRQ (0:1)#
−
−
3V
BUSAK (0:1)#
−
40 pF
3V
INTRP
−
40 pF
3V
IRQ
−
40 pF
3V
USBINT#
−
40 pF
3V
PS2INT
−
40 pF
3V
BUSCLK
−
−
3V
ARBCLKSEL
−
−
3V
DP (1:2)
−
Note 2
5V
DN (1:2)
−
Note 2
5V
Notes 1. The same specification has been made for these pins in the VR4121. If these pins have been processed in
the VR4121, there is no need to perform this processing in the VRC4172.
2. In full-speed mode: 50 pF, In low-speed mode: 350 pF
Remark There is no need to perform external processing if no particular external processing has been specified (−).
Data Sheet U14388EJ2V0DS00
13
µPD31172
(2/2)
Signal Name
External Processing
Drive Capacity
Tolerance
PPON (1:2)
−
40 pF
3V
OCI (1:2)
−
−
3V
IEN
−
−
3V
WAKE
−
40 pF
3V
SMI#
−
40 pF
3V
USBRST#
−
−
3V
CD (0:7)
−
40 pF
3V
STROBE#
Pull up
40 pF
3V
ACK#
Pull up
40 pF
3V
BUSY
Pull down
40 pF
3V
PE
Pull down
40 pF
3V
SELECT
Pull down
40 pF
3V
AUTOFEED#
Pull up
40 pF
3V
SELECTIN#
Pull up
40 pF
3V
ERROR#
Pull up
40 pF
3V
INIT#
Pull up
40 pF
3V
DIR1284
−
40 pF
3V
RXD
−
−
3V
CTS#
−
−
3V
DSR#
−
−
3V
TXD
−
40 pF
3V
RTS#
−
40 pF
3V
DTR#
−
40 pF
3V
DCD#
−
−
3V
RI#
−
−
3V
PS2CLK
Pull up
40 pF
5V
PS2DATA
Pull up
40 pF
5V
GPIO (0:23)
Pull up/pull down
40 pF
3V
EXCS (0:5)#
−
40 pF
3V
LCDBAK
−
40 pF
3V
CLKOUT48M
−
40 pF
3V
Remark There is no need to perform external processing if no particular external processing has been specified (−).
14
Data Sheet U14388EJ2V0DS00
µPD31172
1.4 Recommended Connection of Unused Pins
Connect unused pins as shown in the table below.
Signal Name
SCLK
Recommended Connection
Pull up
Signal Name
PPON (1:2)
Recommended Connection
Leave open
AD (0:24)
−
OCI (1:2)
Pull down
DATA (0:31)
−
IEN
Pull down
LCDCS#
Pull up
WAKE
Leave open
RD#
Pull up
SMI#
Leave open
WR#
Pull up
USBRST#
Pull down
CD (0:7)
Pull down
LCDRDY
ROMCS (2:3)#
Leave open
STROBE#
Pull up
Pull down
ACK#
Pull up
UUCAS#
Pull up
BUSY
Pull down
ULCAS#
Pull up
PE
Pull down
MRAS (0:1)#
Pull up
SELECT
Pull down
UCAS#
Pull up
AUTOFEED#
Pull up
LCAS#
Pull up
SELECTIN#
Pull up
CKE
Pull up
IOR#
−
ERROR#
Pull up
IOW#
−
INIT#
Pull up
RESET
−
DIR1284
IOCS16#
−
RXD
Pull down
IOCHRDY
−
CTS#
Pull up
HOLDRQ#
Leave open
DSR#
Pull up
HOLDAK#
Pull up
TXD
Leave open
SRAS#
Pull up
RTS#
Leave open
SCAS#
Pull up
DTR#
Leave open
BUSRQ (0:1)#
Pull up
DCD#
Pull up
BUSAK (0:1)#
Leave open
RI#
Pull up
INTRP
Leave open
PS2CLK
Pull up
IRQ
Leave open
PS2DATA
Pull up
USBINT#
Leave open
GPIO (0:23)
Pull down
PS2INT
Leave open
EXCS (0:5)#
Leave open
BUSCLK
Pull up
LCDBAK
Leave open
ARBCLKSEL
Pull down
XIN48M
Pull up
DP (1:2)
Pull down
XOUT48M
Leave open
DN (1:2)
Pull down
CLKOUT48M
Leave open
Leave open
Remark Pins with no particular specification (−) cannot be left unconnected.
Data Sheet U14388EJ2V0DS00
15
µPD31172
2. ELECTRICAL SPECIFICATIONS
Absolute Maximum Ratings (TA = 25°°C)
Parameter
Power supply voltage
Symbol
Conditions
Ratings
Unit
−0.5 to +4.6
V
VI < VDD + 0.5 V
−0.5 to +4.6
V
VI < VDD + 3.0 V, DP (2:1), DN (2:1), PS2CLK,
PS2DATA pins
−0.5 to +6.6
V
VO < VDD + 0.5 V
−0.5 to +4.6
V
VO < VDD + 3.0 V, DP (2:1), DN (2:1), PS2CLK,
PS2DATA pins
−0.5 to +6.6
V
VDD
Input voltage
VI
Output voltage
VO
Operating ambient temperature
TA
−40 to +85
°C
Storage temperature
Tstg
−65 to +150
°C
Cautions 1. Do not simultaneously short multiple outputs.
2. Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any
parameter. That is, the absolute maximum ratings are rated values at which the product is on
the verge of suffering physical damage, and therefore the product must be used under
conditions that ensure that the absolute maximum ratings are not exceeded. The ratings and
conditions displayed in DC Characteristics and AC Characteristics in this section indicate the
ranges in which normal operation and product quality can be guaranteed.
Capacitance (TA = 25°°C, VDD = 0 V)
Parameter
Input capacitance
Symbol
CI
Output capacitance
Note
Output capacitance
CO1
Conditions
f = 1 MHz
Unmeasured pins returned to 0 V.
CO2
Note Applicable to DP (2:1), DN (2:1), PS2CLK, and PS2DATA pins.
16
Data Sheet U14388EJ2V0DS00
MIN.
MAX.
Unit
8
pF
8
pF
12
pF
µPD31172
DC Characteristics (TA = −40 to +85°°C, VDD = 3.3 ± 0.3 V)
(1) Pins except for DP (2:1), DN (2:1)
Parameter
Symbol
Conditions
Output voltage, high
VOH1
IOH = −6 mA
Output voltage, low
VOL1
IOL = 6 mA
VOH2
IOH = −9 mA
VOL2
IOL = 9 mA
VOH3
IOH = −3 mA
Output voltage, low
VOL3
IOL = 3 mA
Input voltage, high
VIH1
Input voltage, high
Output voltage, high
Note 1
Note 1
Output voltage, low
Output voltage, high
Note 2
Note 2
MIN.
MAX.
2.4
Unit
V
0.4
2.4
V
V
0.4
2.4
V
V
0.4
V
2.0
VDD
V
VIH2
2.0
5.5
V
Input voltage, low
VIL
0
0.8
V
Power supply current
IDD
300
mA
Input leakage current
ILI
VI = VDD, GND
±10
µA
Input leakage current, high
ILIH
VI = VDD, ARBCLKSEL pin
141
µA
Output leakage current
ILO
VO = VDD, GND
±10
µA
Note 2
Notes 1. Applicable to SCLK, AD (24:0), DATA (31:0), RD#, WR#, ROMCS (3:2)#, CKE#, UUCAS#, ULCAS#, MRAS
(1:0)#, UCAS#, LCAS#, SRAS#, and SCAS# pins.
2. Applicable to PS2CLK and PS2DATA pins.
(2) DP (2:1), DN (2:1) pins
Parameter
Symbol
Conditions
Output voltage, high
VOH
RL = 15 kΩ (connected to GND)
Output voltage, low
VOL
RL = 1.5 kΩ (connected to VDD)
Differential input sensitivity
VDI
Differential common mode
range
VCM
Input voltage, high
VIH_USB
Input voltage, low
VIL_USB
MIN.
MAX.
Unit
2.8
3.6
V
0.3
V
0.2
VDI < 200 mV
0.8
V
2.5
2.0
V
V
0.8
V
Remark Refer to the USB specification, revision 1.0, for details.
Data Sheet U14388EJ2V0DS00
17
µPD31172
AC Characteristics (TA = −40 to +85°°C, VDD = 3.3 ± 0.3 V)
AC test input waveform
VDD
All output pins
1.4 V
Test points
1.4 V
1.4 V
Test points
1.4 V
0V
AC test output test points
VDD
All output pins
0V
18
Data Sheet U14388EJ2V0DS00
µPD31172
Load Conditions
(a) SCLK, AD (0:24), DATA (0:31), RD#, WR#, ROMCS (2:3)#, CLK#, UUCAS#, ULCAS#, ULCAS#, MRAS
(0:1)#, UCAS#, LCAS#, SRAS#, SCAS#
SCLK, AD (0:24), DATA (0:31),
RD#, WR#, ROMCS (2:3)#, CLK#,
UUCAS#, ULCAS#, MRAS (0:1)#,
UCAS#, LCAS#, SRAS#, SCAS#
DUT
CL = 80 pF
(b) DP (1:2), DN (1:2)
DP (1:2), DN (1:2)
DUT
In full-speed mode: CL = 50 pF
In low-speed mode: CL = 350 pF
(c) Other output pins
Output pins (except for (a) and (b) above)
DUT
CL = 40 pF
Data Sheet U14388EJ2V0DS00
19
µPD31172
(1) Clock parameters
Parameter
Symbol
XIN48M clock frequency
Conditions
MIN.
fCLK
TYP.
MAX.
Unit
48.0
50.0
MHz
MIN.
MAX.
Unit
(2) Reset parameters
Parameter
Symbol
RESET signal high-level width
USBRST# signal low-level width
Conditions
tRST
30
ns
tUSBRST
30
ns
(3) SDRAM interface parameters
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
SCLK cycle
tSCLK
20.8
ns
SCLK high-level width
tSCLKH
8
ns
SCLK low-level width
tSCLKL
8
ns
Data output hold time
tSDM
2
ns
Data output delay time
tSDO
Data input setup time
tSDS
9.5
ns
Data input hold time
tSDH
2
ns
15
tSCLKH
tSCLKL
tSCLK
SCLK (I/O)
AD (24:0), WR#,
ROMCS (3:2)#,
UUCAS#, ULCAS#,
UCAS#, LCAS#,
MRAS (1:0)#, SRAS#,
SCAS#, CKE (I/O)
DATA (31:0) (output)
DATA (31:0) (input)
20
tSDM
tSDO
tSDS
Hi-Z
tSDH
Hi-Z
Data Sheet U14388EJ2V0DS00
ns
µPD31172
(4) System bus interface parameters
(a) Access to I/O area
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
Command signal low-level width
tCLCH
130
ns
Address setup time (to command signal)
tAVCL
10
ns
Address hold time (from command signal)
tCHAV
10
ns
IOCS16# valid delay time
tAVCV
12
ns
IOCS16# floating delay time
tAVCZ
10
ns
25
ns
30
ns
Data output hold time
tDM
Data output delay time
tDO
Data input setup time
tDS1
10
ns
Data input setup time
tDS2
10
ns
Data input hold time
tDH
10
ns
Note
6
Note During 16550-compatible serial communication
AD (24:0)
(input)
tAVCL
tCHAV
tCLCH
IOR#/IOW#
(input)
tAVCV
tAVCZ
IOCS16#
(output)
tDS1
tDH
DATA (31:0)
(input)
tDS2
tDH
DATA (31:0)
(input)Note
tDO
tDM
DATA (31:0)
(output)
Note During 16550-compatible serial communication
Remark The broken lines indicate high impedance
Data Sheet U14388EJ2V0DS00
21
µPD31172
(b) Access to LCD area
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
Command signal low-level width
tCLCH
90
ns
Address setup time (to command signal)
tAVCL
10
ns
Address hold time (from command signal)
tCHAV
10
ns
LCDRDY valid delay time
tAVRH
15
ns
LCDRDY set delay time
tCLRL
12
ns
LCDRDY floating delay time
tAVRZ
10
ns
25
ns
30
ns
Data output hold time
tDM
6
Data output delay time
tDO
Data output valid time
tDV
10
ns
Data input setup time
tDS
10
ns
Data input hold time
tDH
10
ns
(i) When accessing the internal PCI bus
AD (24:0)
(input)
LCDCS#
(input)
tAVCL
tCLCH
tCHAV
RD#/WR#
(input)
tAVRH
LCDRDY
(output)
tCLRL
tAVRZ
tDS
tDH
DATA (31:0)
(input)
tDV
DATA (31:0)
(output)
Remark The broken lines indicate high impedance
22
Data Sheet U14388EJ2V0DS00
tDM
µPD31172
(ii) When accessing the configuration register of the PCI host controller
AD (24:0)
(input)
LCDCS#
(input)
tAVCL
tCHAV
tCLCH
RD#/WR#
(input)
LCDRDY
(output) Hi-Z
tDS
tDH
DATA (31:0)
(input)
DATA (31:0) Hi-Z
(output)
tDO
Data Sheet U14388EJ2V0DS00
tDM
Hi-Z
23
µPD31172
(5) GPIO parameters
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
GPIO (23:0) output delay time
tGO
30
ns
GPIO (23:0) interrupt request generation time
tGI
30
ns
GPIO (23:0) interrupt request clear time
tGIC
35
ns
(a) In output mode
IOW#
(input)
tGO
GPIO (23:0)
(output)
(b) In input mode
GPIO (23:0)
(input)
tGI
tGI
IRQ (output)
(level trigger
interrupt)
tGIC
IRQ (output)
(edge trigger
interrupt)
IOW# (input)
(edge interrupt
request clear)
24
Data Sheet U14388EJ2V0DS00
µPD31172
(6) PCS (Programmable Chip Select) parameters
Parameter
EXCS output delay time
Symbol
Conditions
MIN.
tEO
MAX.
Unit
30
ns
MAX.
Unit
8 tSCLK
ns
AD (24:0)
(I/O)
tEO
tEO
EXCS (5:0)#
(output)
(7) PWM (Pulse Width Modulation) parameters
Parameter
LCDBAK output delay time
Symbol
Conditions
MIN.
tLO
IOW#
(input)
tLO
LCDBAK
(output)Note
Note High level: enable, Low level: disable
Data Sheet U14388EJ2V0DS00
25
µPD31172
(8) PS/2 parameters
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
PS2CLK clock high-level width
tPSCH
3T
ns
PS2CLK clock low-level width
tPSCL
3T
ns
PS2CLK output delay time
tPSO
T + 20
ns
Transmission start time
tPSGO
20
ns
Transmit data output delay time
tPSDO
3 T + 20
ns
Receive data setup time
tPSDS
0
ns
Receive data hold time
tPSDH
4T
ns
Receive disable setup time
tPSN
3T
Remark T = 125 ns (cycle of internal clock for controlling PS/2)
(a) Transmission
PS/2 interface
disabled
PS/2 interface
enabled
IOW#
(input)
tPSO
Transmit data
setting
tPSO
Input
Output
tPSCL tPSCH
PS2CLK
(I/O)
Input
tPSDO
tPSGO
PS2DATA
(I/O)
Start bit
Input
DATA0
DATA (1:7),
parity bit
Output
Stop bit
Input
(b) Reception
tPSCL
tPSN
PS2CLK
(I/O)
Input
tPSDS
PS2DATA
(I/O)
26
Output
tPSDH
Start bit
DATA0
DATA (1:7),
parity bit
Data Sheet U14388EJ2V0DS00
Stop bit
ns
µPD31172
(9) 16550-compatible serial interface parameters
Parameter
Symbol
Transmit clock division ratio
Transmit clock rising edge delay time (from CLK
Conditions
MIN.
N
Note 1
Transmit clock falling edge delay time (from CLK
TYP.
MAX.
Unit
2 −1
16
1
)
tBHD
10
ns
Note 1
tBLD
15
ns
)
Transmit clock pulse low-level width
tLW
Transmit clock pulse high-level width
tHW
N=1
0.5CLKC
ns
N=2
1CLKC
ns
N=3
2CLKC
ns
N>3
2CLKC
ns
N=1
0.5CLKC
ns
N=2
1CLKC
ns
N=3
1CLKC
ns
N>3
(N − 2)
CLKC
ns
Interrupt cancellation time (from IOR# ↑, when reading
LSR register)
tRINT1
40
ns
Interrupt cancellation time (from IOR# ↓, when reading
RBR register)
tRINT2
30
ns
Sample clock delay time (from RCLK)
tSCD
10
ns
Interrupt generation time (from valid data reception,
reception error)
tSINT
1 RCLKC
Note 2
+ 20
ns
Interrupt cancellation time (from IOW# ↓, when writing to
THR register)
tHR
30
ns
Interrupt cancellation time (from IOR# ↑, when reading
IIR register)
tIR
40
ns
Transmission start time
tIRS
8 BAUC
24 BAUC
+ 20
ns
Interrupt generation time (from IOW# ↑, when writing to
THR register)
tSI
16 BAUC
24 BAUC
+ 20
ns
Interrupt generation time (from stop bit)
tSTI
8 BAUC +
20
ns
RTS#, DTR delay time (from IOW# ↑, when writing to
MCR register)
tMDO
30
ns
Interrupt cancellation time (from IOR# ↓, when reading
MSR register)
tRIM
30
ns
Interrupt cancellation time (from RI# ↑, CTS#, DSR#,
DCD#)
tSIM
30
ns
Notes 1. CLK is the internal system clock of the 16550 serial controller, and has a frequency of 1.8462 MHz.
2. When bit 0 of the FCR register is 1, tSINT = 3 RCLKC + 20 (ns).
During a timeout interrupt, tSINT = 8 RCLKC + 20 (ns).
Remark CLKC:
CLK (internal system clock of 16550 serial controller) cycle
RCLKC:
RCLK (on-chip serial controller receive clock) cycle
BAUC:
BAUDOUTB (on-chip serial controller transmit clock) cycle
RCLKC = BAUC in this case.
Data Sheet U14388EJ2V0DS00
27
µPD31172
(a) Serial BAUDOUT timing
CLK
(internal, 1.8462 MHz)
tBLD
tHW
tBHD
BAUDOUTB
(1 cycle) (internal)
tBLD
tLW
tBHD
tHW
BAUDOUTB
(2 cycles) (internal)
tBLD
tBHD
tBLD
tBHD
tLW
tHW
BAUDOUTB
(3 cycles) (internal)
tLW
tHW
BAUDOUTB
(N cycles, N > 3)
(internal)
tLW
(b) Serial receive timing
RCLK
(BAUDOUTB)
tSCD
8 RCLKC
16 RCLKC
Internal sample clock
RXD (input)
Start bit
DATA (5:8)
Parity bit Stop bit
Internal sample clock
tSINT
INTRP (output)
(receive data existence interruptNote 1)
INTRP (output)
(receive status interruptNote 2)
IOR# (input)
(reading RBR register)
tRINT2
tRINT1
IOR# (input)
(reading LSR register)
Notes 1. Dependant on the existence of receive data. At this time, bit 0 of the IER register is 1, and bits 3 to
1 of the IIR register are 0, 1, 0, respectively.
2. Dependant on the receive line status. At this time, bit 2 of the IER register is 1, and bits 3 to 1 of the
IIR register are 0, 1, 1, respectively.
28
Data Sheet U14388EJ2V0DS00
µPD31172
(c) Serial transmission timing
RXD
(input)
INTRPNote
(output)
Start bit
DATA (5:8)
Parity bit Stop bit
Start bit
tIRS
tSTI
tHR
tSI
IOW# (input)
(writing to THR
register)
tHR
tIR
IOR# (input)
(reading IIR
register)
Note Dependant on whether the transmit buffer is empty. At this time, bit 1 of the IER register is 1, and bits 3
to 1 of the IIR register are 0, 0, 1, respectively.
(d) Serial modem control timing
IOW# (input)
(writing to MCR
register)
tMDO
tMDO
RTS#, DTR#
(output)
CTS#, DSR#,
DCD# (input)
tSIM
tSIM
INTRPNote
(output)
IOR# (input)
(reading MSR
register)
tRIM
tRIM
tSIM
RI# (input)
Note Dependant on the modem status. At this time, bit 3 of the IER register is 1, and bits 3 to 1 of the IIR
register are 0, 0, 0, respectively.
Data Sheet U14388EJ2V0DS00
29
µPD31172
(10) IEEE1284-compliant parallel interface parameters
(a) Parallel port control signal output
Parameter
Symbol
MAX.
Unit
tCLK1284
24
MHz
CD (7:0) output delay time (writing to DATA register)
t1
30
ns
INIT#, STROBE#, AUTOFEED#, SELECTIN# setup time
t2
4T
ns
DIR1284 setup time
t3
5T
ns
MAX.
Unit
Parallel interface internal clock frequency
Conditions
MIN.
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
IOW# (input)
t1
CD (7:0)
(I/O)
t2
INIT#, STROBE#,
AUTOFEED#,
SELECTIN#
(I/O)
t3
DIR1284
(output)
(b) Compatible mode using FIFO
Parameter
Symbol
CD (7:0) setup time
Conditions
MIN.
t4
24 T
ns
STROBE# pulse width
t5
24 T
ns
BUSY response time
t6
Note 1
12 T
(from STROBE# ↑)
t7
24 T
ns
Note 2
(from BUSY ↓)
t8
0
ns
t9
24 T
ns
CD (7:0) hold time
CD (7:0) hold time
Note 3
STROBE# setup time
Notes 1. When there is no reaction from BUSY at a low level, STROBE# continues to output a low level.
2. Data is held while BUSY is high level.
3. When the FIFO buffer is empty, this signal is held at a high level.
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
CD (7:0)
(output)
Valid data
t4
t5
t7
STROBE#
(output)
t8
t6
BUSY
(input)
30
ns
Note 2
Data Sheet U14388EJ2V0DS00
t9
µPD31172
(c) During ECP normal-direction transfer
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
2T
ns
CD (7:0), AUTOFEED# setup time
t10
1T
BUSY response time (from STROBE# ↓)
t11
0
STROBE# response time
t12
2T
BUSY response time (from STROBE# ↑)
t13
0
CD (7:0) hold time
t14
2T
4T
ns
t15
3T
6T
ns
MIN.
MAX.
Unit
Note
STROBE# setup time
ns
4T
ns
ns
Note When the FIFO buffer is empty, this signal is held at a high level.
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
CD (7:0)
AUTOFEED#
(output)
Valid data
t10
STROBE#
(output)
t11
t12
t13
t14
t15
BUSY
(input)
(d) During ECP reverse-direction transfer
Parameter
Symbol
CD (7:0), BUSY setup time
Conditions
t16
0
ns
t17
3T
ns
ACK# response time
t18
0
ns
AUTOFEED# response time (from ACK# ↑)
t19
CD (7:0) hold time
t20
0
ns
ACK# setup time
t21
0
ns
AUTOFEED# response time
Note
(from ACK# ↓)
5T
ns
Note When the FIFO buffer is full, this signal is held at a low level.
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
CD (7:0)
BUSY (input)
Valid data
t16
ACK# (input)
t17
t18
t19
t20
t21
AUTOFEED#
(output)
Data Sheet U14388EJ2V0DS00
31
µPD31172
(e) Write timing in EPP1.9 mode
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
IOCHRDY setup time
t22
3T
ns
CD (7:0) output delay time
t23
30
ns
STROBE# setup time, DIR1284 cancellation time
(from IOW# ↓)
t24
5T
ns
STROBE# setup time, DIR1284 cancellation time
(from BUSY ↓)
t25
4T
ns
SELECTIN#, AUTOFEED# setup time
(from STROBE# ↓, valid data output)
t26
Timeout generation time
t27
10
µs
SELECTIN#, AUTOFEED# cancellation time
(from IOW# ↑)
t28
3T
ns
IOCHRDY cancellation time
t29
4T
ns
CD (7:0) hold time
t30
1T
ns
STROBE# cancellation time, DIR1284 setup time
t31
1T
ns
0
ns
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
AD (24:0),
DATA (31:0)
(input)
Valid data
t27
IOW# (input)
t22
t29
IOCHRDY
(output)
t24
t31
STROBE#
(output)
t26
SELECTIN#
AUTOFEED#
(output)
t23
CD (7:0)
(output)
t30
Valid data
t24
DIR1284
(output)
t25
BUSY
(input)
32
t28
Data Sheet U14388EJ2V0DS00
t31
µPD31172
(f)
Read timing in EPP1.9 mode
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
IOCHRDY setup time
t32
3T
ns
STROBE# setup time, DIR1284 cancellation time
(from IOR# ↓)
t33
5T
ns
STROBE# setup time, DIR1284 cancellation time
(from BUSY ↓)
t34
4T
ns
SELECTIN#, AUTOFEED# setup time
(from IOR# ↓)
t35
6T
ns
SELECTIN#, AUTOFEED# setup time
(from DIR1284 ↑)
t36
Timeout generation time
t37
10
µs
SELECTIN#, AUTOFEED# cancellation time
(from IOR# ↑)
t38
3T
ns
CD (7:0) hold time
t39
IOCHRDY cancellation time
t40
STROBE# cancellation time, DIR1284 setup time
t41
30
ns
0
ns
3T
1T
ns
ns
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
AD (24:0)
(input)
t37
IOR# (input)
DATA (31:0)
(output)
Hi-Z
Hi-Z
Valid data
t32
t40
IOCHRDY
(output)
t33
t41
STROBE#
(output)
t34
t36
SELECTIN#
AUTOFEED#
(output)
t38
t35
t39
CD (7:0)
(input)
Hi-Z
t33
Valid data
Hi-Z
t41
DIR1284
(output)
BUSY
(input)
t34
Data Sheet U14388EJ2V0DS00
33
µPD31172
(g) Write timing in EPP1.7 mode
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
CD (7:0) output delay time
t42
30
ns
STROBE# setup time
t43
3T
ns
SELECTIN#, AUTOFEED# setup time
t44
4T
ns
IOCHRDY setup time
t45
3T
ns
Timeout generation time
t46
10
µs
IOCHRDY cancellation time
t47
3T
ns
SELECTIN#, AUTOFEED# cancellation time
t48
3T
ns
STROBE# cancellation time
t49
1T
ns
CD (7:0) hold time
t50
30
ns
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
AD (24:0),
DATA (31:0)
(input)
Valid data
IOW# (input)
t50
t42
CD (7:0)
(output)
Valid data
t43
t49
STROBE#
(output)
t48
t44
SELECTIN#
AUTOFEED#
(output)
DIR1284
(output)
t46
BUSY
(input)
t45
IOCHRDY
(output)
34
Data Sheet U14388EJ2V0DS00
t47
µPD31172
(h) Read timing in EPP1.7 mode
Parameter
Symbol
Conditions
MIN.
MAX.
Unit
3T
ns
DIR1284 setup time
t51
SELECTIN#, AUTOFEED# setup time
t52
IOCHRDY setup time
t53
3T
ns
Timeout generation time
t54
10
µs
IOCHRDY cancellation time
t55
3T
ns
SELECTIN#, AUTOFEED# cancellation time
t56
3T
ns
CD (7:0) hold time
t57
0
ns
DIR1284 cancellation time
t58
1T
ns
30
ns
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
AD (24:0)
(input)
IOR#
(input)
DATA (31:0)
(output)
Hi-Z
Hi-Z
Valid data
STROBE#
(output)
t52
t56
SELECTIN#
AUTOFEED#
(output)
CD (7:0)
(input)
t57
Hi-Z
Hi-Z
Valid data
t51
t58
DIR1284
(output)
t54
BUSY
(input)
t53
t55
IOCHRDY
(output)
Data Sheet U14388EJ2V0DS00
35
µPD31172
(i)
Interrupt request timing
Parameter
Symbol
Conditions
MIN.
MAX.
Interrupt request setup time
t59
Interrupt request generation time (from ACK#↑,
ERROR# ↓)
t60
3T
ns
Interrupt request cancellation time (from IOW# ↑)
t61
5T
ns
t62
3T
ns
t63
5T
ns
Note
Interrupt request cancellation time
(from IOR# ↑)
Interrupt request generation time (from IOW# ↑)
4T
Unit
ns
Note When bit 7 of the CNFGA register = 0
Remark T: Parallel interface internal clock cycle (41.6 ns (MIN.))
IOW#
(input)
IOR#
(input)
ACK#
(input)
t60
t61
t60
INTRP, IRQ
(output)
t59
ERROR#
(input)
t60
36
t60
Data Sheet U14388EJ2V0DS00
t62
t63
µPD31172
(11) USB interface
Applicable to the DP (2:1) and DN (2:1) pins. Refer to the USB specification, revision 1.0, for details.
Full-speed
mode
Low-speed
mode
Parameter
Symbol
Rise time
tR
Fall time
tF
tR, tF matching
tRFM
Differential output signal
crossover point
VCRS
Rise time
Conditions
tR
MIN.
MAX.
Unit
CL = 50 pF
4
20
ns
CL = 50 pF
4
20
ns
tR/tF
90
110
%
1.3
2.0
V
CL = 50 pF
75
CL = 350 pF
Fall time
tF
ns
300
CL = 50 pF
75
CL = 350 pF
ns
300
ns
80
120
%
tR, tF matching
tRFM
Differential output signal
crossover point
VCRS
1.3
2.0
V
Imp.
28
43
Ω
Impedance
tR/tF
ns
90%
90%
VCRS
DP (2:1), DN (2:1)
10%
10%
tR
Data Sheet U14388EJ2V0DS00
tF
37
µPD31172
3. PACKAGE DRAWING
208-PIN PLASTIC FBGA (15x15) OUTLINE DRAWINGS
w
D
S B
D1
ZD
B
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
ZE
A
E1 E
UTRPN MLK JH GF EDCB A
w
INDEX MARK
4 – R0.3
S A
4 – C1.0
A
25°
y1
A2
S
S
y
e
S
208 – φ b
A1
φx
M
S A B
ITEM
D
MILLIMETERS
15.00±0.10
D1
14.4
E
E1
15.00±0.10
14.4
w
0.20
e
A
0.80
1.51±0.15
A1
A2
0.35±0.10
1.16
b
0.50 +0.05
−0.10
x
0.08
y
y1
0.10
0.20
ZD
ZE
1.1
1.1
P208S1-80-2C
38
Data Sheet U14388EJ2V0DS00
µPD31172
4. RECOMMENDED SOLDERING CONDITIONS
The µPD31172 should be soldered and mounted under the following recommended conditions.
For the details of the recommended soldering conditions, refer to the document Semiconductor Device
Mounting Technology Manual (C10535E).
For soldering methods and conditions other than those recommended below, contact your NEC sales
representative.
Table 4-1. Surface Mounting Type Soldering Conditions
Soldering Method
Infrared reflow
Soldering Conditions
Package peak temperature: 235°C, Time: 30 seconds max. (at 210°C or higher),
Note
Count: Three times or less, Exposure limit: 7 days (after that, prebake at 125°C for
Recommended
Condition
Symbol
IR35-107-3
10 to 72 hours)
VPS
Package peak temperature: 215°C, Time: 25 to 40 seconds (at 200°C or higher),
Note
Count: Three times or less, Exposure limit: 7 days (after that, prebake at 125°C for
VP15-107-3
10 to 72 hours)
Partial heating
Pin temperature: 300°C max., Time: 3 seconds max. (per pin row)
–
Note After opening the dry pack, store it at 25°C or less and 65% RH or less for the allowable storage period.
Caution
Do not use different soldering methods together (except for partial heating).
Data Sheet U14388EJ2V0DS00
39
µPD31172
[MEMO]
40
Data Sheet U14388EJ2V0DS00
µPD31172
[MEMO]
Data Sheet U14388EJ2V0DS00
41
µPD31172
NOTES FOR CMOS DEVICES
1
PRECAUTION AGAINST ESD FOR SEMICONDUCTORS
Note:
Strong electric field, when exposed to a MOS device, can cause destruction of the gate oxide and
ultimately degrade the device operation. Steps must be taken to stop generation of static electricity
as much as possible, and quickly dissipate it once, when it has occurred. Environmental control
must be adequate. When it is dry, humidifier should be used. It is recommended to avoid using
insulators that easily build static electricity. Semiconductor devices must be stored and transported
in an anti-static container, static shielding bag or conductive material. All test and measurement
tools including work bench and floor should be grounded. The operator should be grounded using
wrist strap. Semiconductor devices must not be touched with bare hands. Similar precautions need
to be taken for PW boards with semiconductor devices on it.
2
HANDLING OF UNUSED INPUT PINS FOR CMOS
Note:
No connection for CMOS device inputs can be cause of malfunction. If no connection is provided
to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence
causing malfunction. CMOS devices behave differently than Bipolar or NMOS devices. Input levels
of CMOS devices must be fixed high or low by using a pull-up or pull-down circuitry. Each unused
pin should be connected to V DD or GND with a resistor, if it is considered to have a possibility of
being an output pin. All handling related to the unused pins must be judged device by device and
related specifications governing the devices.
3
STATUS BEFORE INITIALIZATION OF MOS DEVICES
Note:
Power-on does not necessarily define initial status of MOS device. Production process of MOS
does not define the initial operation status of the device. Immediately after the power source is
turned ON, the devices with reset function have not yet been initialized. Hence, power-on does
not guarantee out-pin levels, I/O settings or contents of registers. Device is not initialized until the
reset signal is received. Reset operation must be executed immediately after power-on for devices
having reset function.
42
Data Sheet U14388EJ2V0DS00
µPD31172
Regional Information
Some information contained in this document may vary from country to country. Before using any NEC
product in your application, pIease contact the NEC office in your country to obtain a list of authorized
representatives and distributors. They will verify:
•
Device availability
•
Ordering information
•
Product release schedule
•
Availability of related technical literature
•
Development environment specifications (for example, specifications for third-party tools and
components, host computers, power plugs, AC supply voltages, and so forth)
•
Network requirements
In addition, trademarks, registered trademarks, export restrictions, and other legal issues may also vary
from country to country.
NEC Electronics Inc. (U.S.)
NEC Electronics (Germany) GmbH
NEC Electronics Hong Kong Ltd.
Santa Clara, California
Tel: 408-588-6000
800-366-9782
Fax: 408-588-6130
800-729-9288
Benelux Office
Eindhoven, The Netherlands
Tel: 040-2445845
Fax: 040-2444580
Hong Kong
Tel: 2886-9318
Fax: 2886-9022/9044
NEC Electronics (France) S.A.
Velizy-Villacoublay, France
Tel: 01-30-67 58 00
Fax: 01-30-67 58 99
Seoul Branch
Seoul, Korea
Tel: 02-528-0303
Fax: 02-528-4411
NEC Electronics (France) S.A.
NEC Electronics Singapore Pte. Ltd.
Milton Keynes, UK
Tel: 01908-691-133
Fax: 01908-670-290
Spain Office
Madrid, Spain
Tel: 91-504-2787
Fax: 91-504-2860
United Square, Singapore 1130
Tel: 65-253-8311
Fax: 65-250-3583
NEC Electronics Italiana s.r.l.
NEC Electronics (Germany) GmbH
Milano, Italy
Tel: 02-66 75 41
Fax: 02-66 75 42 99
Scandinavia Office
Taeby, Sweden
Tel: 08-63 80 820
Fax: 08-63 80 388
NEC Electronics (Germany) GmbH
Duesseldorf, Germany
Tel: 0211-65 03 02
Fax: 0211-65 03 490
NEC Electronics (UK) Ltd.
NEC Electronics Hong Kong Ltd.
NEC Electronics Taiwan Ltd.
Taipei, Taiwan
Tel: 02-2719-2377
Fax: 02-2719-5951
NEC do Brasil S.A.
Electron Devices Division
Rodovia Presidente Dutra, Km 214
07210-902-Guarulhos-SP Brasil
Tel: 55-11-6465-6810
Fax: 55-11-6465-6829
J99.1
Data Sheet U14388EJ2V0DS00
43
µPD31172
Related Documents:
Reference Materials:
VRC4172 User’s Manual (U14386E)
VR4121 User’s Manual (U13569E)
VR4121 Data Sheet (U14691E)
Electrical Characteristics for Microcomputer (IEI-601)
The related documents indicated in this publication may include preliminary versions.
versions are not marked as such.
However, preliminary
VR4121 and VRC4172 are trademarks of NEC Corporation.
Windows is either a registered trademark or trademark of Microsoft Corporation in the United States
and/or other countries.
• The information in this document is subject to change without notice. Before using this document, please
confirm that this is the latest version.
• No part of this document may be copied or reproduced in any form or by any means without the prior written
consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in
this document.
• NEC Corporation does not assume any liability for infringement of patents, copyrights or other intellectual property
rights of third parties by or arising from use of a device described herein or any other liability arising from use
of such device. No license, either express, implied or otherwise, is granted under any patents, copyrights or other
intellectual property rights of NEC Corporation or others.
• Descriptions of circuits, software, and other related information in this document are provided for illustrative
purposes in semiconductor product operation and application examples. The incorporation of these circuits,
software, and information in the design of the customer's equipment shall be done under the full responsibility
of the customer. NEC Corporation assumes no responsibility for any losses incurred by the customer or third
parties arising from the use of these circuits, software, and information.
• While NEC Corporation has been making continuous effort to enhance the reliability of its semiconductor devices,
the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or
property arising from a defect in an NEC semiconductor device, customers must incorporate sufficient safety
measures in its design, such as redundancy, fire-containment, and anti-failure features.
• NEC devices are classified into the following three quality grades:
"Standard", "Special", and "Specific". The Specific quality grade applies only to devices developed based on a
customer designated "quality assurance program" for a specific application. The recommended applications of
a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device
before using it in a particular application.
Standard: Computers, office equipment, communications equipment, test and measurement equipment,
audio and visual equipment, home electronic appliances, machine tools, personal electronic
equipment and industrial robots
Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster
systems, anti-crime systems, safety equipment and medical equipment (not specifically designed
for life support)
Specific: Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life
support systems or medical equipment for life support, etc.
The quality grade of NEC devices is "Standard" unless otherwise specified in NEC's Data Sheets or Data Books.
If customers intend to use NEC devices for applications other than those specified for Standard quality grade,
they should contact an NEC sales representative in advance.
M7 98. 8