HYNIX HL14203

HL14203
HL14203
LCD Driver IC
Preliminary
2Q. 1999
Hyundai Electronics Industries
System IC Division
1
Preliminary
HL14203
Contents
1. General Description
2. Features
3. Block Diagram
4. Pin Diagram
5. Pin Description
6. Serial I/O Data Format
7. Registers
8. Key Scan Function
9. LCD Function
10. Power On Reset
11. Power Down Mode
12. Oscillator Port
13. Electrical Characteristics
14. Application
2
Preliminary
HL14203
1. General Description
The HL14203 is 1/3 duty LCD display driver. It can drive directly maximum
126 segments. Also it has four general purpose output ports and a key scan
function that accepts input from up to 30 keys.
2. Features
• LCD display
•
•
•
•
•
•
•
..................................... 42 segments x 3 commons
1/3 duty - 1/2 bias
1/3 duty - 1/3 bias
Key scan ............................................ Maximum 30 keys
Input 5 pins, Output 6 pins
Power down mode ............................. Sleep mode and all segments off mode
Port
Output .................................................. 4 pins
( Including the LCD segment port )
Serial I/O .............................................. Data transfer and receive
Power on reset ..................................... Supply voltage detection ( SVD )
RC oscillator
Package ............................................... 64QFP
Package Dimensions
64QFP (14×14)
64QFP (10×10)
1.0
0.8
33
32
64 1
17
16
0.15
10.0
32
33
48
49
12.0
10.0
1.0
1.25
0.8
14.0
17.2
1.0
48
49
0.15
0.5
(1.6)
1.0
12.0
(1.6)
14.0
0.5
17.2
0.35
64
2.7
Unit : mm
3
0.1
0.18
0.1
Unit : mm
17
16
1
1.7max
0.5
1.25
Preliminary
HL14203
COMMOM
DRIVER
SEGMENT
DRIVER
VCL1
VCL2
LCD
BIAS
LCD
DISPLAY & CONTROL
REGISTER
VDD
VSS
SVD
CLOCK
GENERATOR
SERIAL
I/O
CLOCK
SI
SO
SCK
CE
KEY
SCAN
TEST
CONTROL
4
KIN5
KIN4
KIN3
KIN2
KIN1
TEST
RESET
KS6
KS5
KS4
KS3
KS2
KS1
OSC
SEG1 / P1
SEG5
SEG4 / P4
COM3
COM2
COM1
KS2 / SEG42
KS1 / SEG41
SEG40
3. Block Diagram
Preliminary
HL14203
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
KS5
KS4
KS3
KS2 / SEG42
KS1 / SEG41
COM3
COM2
COM1
SEG40
SEG39
SEG38
SEG37
SEG36
SEG35
SEG34
SEG33
4. Pin Diagram
HL14203
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
SEG32
SEG31
SEG30
SEG29
SEG28
SEG27
SEG26
SEG25
SEG24
SEG23
SEG22
SEG21
SEG20
SEG19
SEG18
SEG17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
SEG1 / P1
SEG2 / P2
SEG3 / P3
SEG4 / P4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
KS6
KIN1
KIN2
KIN3
KIN4
KIN5
TEST
VDD
VCL1
VCL2
VSS
OSC
SO
CE
SCK
SI
5
Preliminary
HL14203
5. Pin Description
PIN Name
I/O
Pin Number
SEG[42:1]
O
42
LCD SEG Pins share P1,P2,P3 and P4
COM [3:1]
O
3
LCD Common Pins
VCL[2:1]
I
2
LCD Bias Pins
OSC
I/O
1
Oscillator Input Pin
KS[6:1]
O
6
Key Scan Output Pins
KIN[5:1]
I
5
Key Scan Input Pins
CE
I
1
Serial I/O Control Pin
SCK
I
1
Serial I/O Clock Pin
SO
O
1
Serial I/O Data Output Pin
SI
I
1
Serial I/O Data Input Pin
TEST
I
1
Test Pin. “1” Test mode , “0” Normal Mode
P[4:1]
O
4
Output Port share SEG[4:1]
VDD
I
1
Power Supply Pin
VSS
I
1
Ground Pin
6
Contents
Preliminary
HL14203
6. Serial I/O Data Format
1) Writing Mode
i )SCK is stopped at the low level
CE
SCK
SI
XX
0
1
0
0
0
0
1
0
A0
A1
A2
A3
A4
A5
A6
A7
0
1
0
0
0
0
1
0
A0
A1
A2
A3
A4
A5
A6
A7
0
1
0
0
0
0
1
0
A0
A1
A2
A3
A4
A5
A6
A7
D1
D2
D3
D41 D42
0
0
0
0
S0
Display data
S1
K0
K1
P0
P1
SC DR
0
Control data
0
DD
SO
CE
SCK
SI
XX
D43
D44 D45
D83 D84
0
0
0
0
0
Display data
0
0
0
0
0
0
0
0
Fixed data
1
DD
SO
CE
SCK
SI
XX
D85
D86 D87
D125
Display data
D126
0
0
0
0
0
0
0
Fixed data
0
0
0
0
0
1
0
DD
SO
7
Preliminary
HL14203
ii )SCK is stopped at the high level
CE
SCK
SI
XX
0
1
0
0
0
0
1
0
A0
A1
A2
A3
A4
A5
A6
A7
D1
D2
D3
D41 D42
0
0
0
0
Display data
S0
S1
K0
K1
P0
P1
SC DR
0
Control data
0
DD
SO
CE
SCK
SI
XX
0
1
0
0
0
0
1
0
A0
A1
A2
A3
A4
A5
A6
A7
D43 D44 D45
D83 D84
0
0
0
0
S0
Display data
S1
K0
K1
P0
P1
SC DR
0
Fixed data
1
DD
SO
CE
SCK
SI
XX
0
1
0
0
0
0
1
0
A0
A1
A2
A3
A4
A5
A6
A7
D85 D86 D87
D125 D126
Display data
0
0
0
0
S0
S1
K0
Fixed data
K1
P0
P1
SC DR
1
0
DD
SO
A7~A0 : 42H address
D126~D1 : Data of LCD display registers
S0, S1 : Sleep control data
K0, K1 : Key scan output / Segment output selection data
P0, P1 : Segment output / general-purpose output port selection data
SC
: Segment on / off control data
DR
: 1/2 bias or 1/3 bias drive selection data
8
Preliminary
HL14203
2) Reading Mode
i ) SCK is stopped at the low level
CE
SCK
SI
XX
1
1
0
0
0
0
1
0
XX
A0 A1 A2 A3 A4 A5 A6 A7
XX
SO
K1 K2 K3 K4 K5 K6 K7 K8 K9 K10 K11 K12
K29
K30
SA
XX
Output data
X : don’t care
ii ) SCK is stopped at the high level
CE
SCK
SI
XX
1
1
0
0
0
0
1
0
XX
A0 A1 A2 A3 A4 A5 A6 A7
SO
XX K1
K2 K3 K4 K5 K6 K7 K8 K9 K10 K11 K12
K29
K30
SA XX
Output data
X : don’t care
A7 ~ A0 : 43H address
K30 ~ K1 : Key data
SA
: Sleep acknowledge
9
Preliminary
HL14203
7. Registers
1) Display Registers
Output Pin
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG15
SEG16
SEG17
SEG18
SEG19
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
COM1
D1
D4
D7
D10
D13
D16
D19
D22
D25
D28
D31
D34
D37
D40
D43
D46
D49
D52
D55
D58
D61
D64
D67
D70
D73
D76
D79
D82
D85
D88
D91
D94
D97
D100
D103
D106
D109
D112
D115
D118
D121
D124
COM2
D2
D5
D8
D11
D14
D17
D20
D23
D26
D29
D32
D35
D38
D41
D44
D47
D50
D53
D56
D59
D62
D65
D68
D71
D74
D77
D80
D83
D86
D89
D92
D95
D98
D101
D104
D107
D110
D113
D116
D119
D122
D125
10
COM3
D3
D6
D9
D12
D15
D18
D21
D24
D27
D30
D33
D36
D39
D42
D45
D48
D51
D54
D57
D60
D63
D66
D69
D72
D75
D78
D81
D84
D87
D90
D93
D96
D99
D102
D105
D108
D111
D114
D117
D120
D123
D126
Preliminary
HL14203
2) Control Registers
Bias Selection Register
DR
0
1
Bias Selection
1/3 Bias
1/2 Bias
Key Scan / Segment output Selection Register
Control Data
K0
K1
0
0
0
1
1
X
Output Pin Status
Maximum number of Input Pins
KS1/SEG41 KS2/SEG42
KS1
KS2
30
SEG41
KS2
25
SEG41
SEG42
20
Port Mode Register
Control Data
P0
P1
0
0
0
1
1
0
1
1
SEG1/ P1
SEG1
P1
P1
P1
Output Pin Status
SEG2/ P2
SEG3/ P3
SEG2
SEG3
P2
SEG3
P2
P3
P2
P3
SEG4/ P4
SEG4
SEG4
SEG4
P4
Port Data Register
Output Pin
SEG1 / P1
SEG2 / P2
SEG3 / P3
SEG4 / P4
Port Data Register
D1
D4
D7
D10
Sleep Mode Control Register
Control Data
Output Pin Status
OSC
SEG / COMMON
Mode
Output
Oscillator
S0
S1
KS1 KS2 KS3 KS4 KS5
0
0
Normal Operating
Operating
H
H
H
H
H
0
1
Sleep
Stopped
L
L
L
L
L
L
1
0
Sleep
Stopped
L
L
L
L
L
H
1
1
Sleep
Stopped
L
H
H
H
H
H
11
KS6
H
H
H
H
Preliminary
HL14203
Display On/Off Control Register
Control Data
SC
0
1
Display Status
SEG1 ~ SEG42
On
Off
Key Scan Data & Sleep Acknowledge Read
ADDRESS
43H
KS1 / SEG41
KS2 / SEG42
KS3
KS4
KS5
KS6
Read Data
K1 ~ K30, SA
KIN1
K1
K6
K11
K16
K21
K26
KIN1
K2
K7
K12
K17
K22
K27
KIN1
K3
K8
K13
K18
K23
K28
12
KIN1
K4
K9
K14
K19
K24
K29
KIN1
K5
K10
K15
K20
K25
K30
Preliminary
HL14203
8. Key Scan Function
1) Key Scan Timing
The key scan period is 384T. The HL14203 scans the key twice and determines
that a key has been pressed when the key data agrees. It outputs a key data read
request 800T after starting a key scan. If the key data does not agree and a key
was pressed at that point, it scans the key again.Thus the HL14203 cannot detect
a key press shorter than 800T.
KS1
*)
KS2
*)
KS3
*)
KS4
*)
KS5
*)
KS6
*)
1
*)
1
2
*)
2
3
*)
3
4
*)
4
5
*)
5
6
6
*)
768T
Key on
*) In sleep mode the high / low state of these pins is determined by the S0,S1 bits in the control data.
Key scan output signals are not output from pins that are set low.
2) In normal mode
• The pins KS1 to KS6 are set high.
• When a key is pressed a key scan is started and the keys are scanned until all
keys are released. Multiple key presses are recognized by determining whether
multiple key data bits are set.
• If a key is pressed for longer than 800T ( where T=1/fosc ) the HL14203
outputs a key data read request (a low level on SO pin) to the controller. The
controller acknowledges this request and reads the key data. However, if CE
is high during a serial data transfer, SO will be set high.
• After the controller reads the key data, the key data read requests is cleared (
SO pin is set high ) and the HL14203 performs another key scan. Also note
that SO pin, being an open-drain output, requires a pull-up resistor.
13
Preliminary
HL14203
Key input 1
Key input 2
Key Scan
800T
800T
800T
CE
Write
address
Write
address
Read
address
Write
address
Read
address
Read
address
SI
SO
Key data read
Key data read request
Key data read
Key data read request
Key data read
Key data read request
3) In sleep mode
• The pins KS1 to KS6 are set to high or low by the S0 and S1 bits in the
sleep mode control register.
• If a key on one of the lines corresponding to a KS1 to KS6 pin which is set
high is pressed, the oscillator on the OSC pin is started and a key scan is
performed. Keys are scanned until all keys are released. Multiple key presses are recognized by determining whether multiple key data bits are set.
• If a key is pressed for longer than 800T ( where T=1/fosc ) the HL14203
outputs a key data read request (a low level on SO) to the controller. The
controller acknowledges this request and reads the key data. However, if
CE is high during a serial data transfer, SO will be set high.
• After the controller reads the key data, the key data read request is cleared
( SO is set high ) and the HL14203 performs another key scan. However
this does not clear sleep mode. Also note that SO, being an open-drain
output, requires a pull-up resistor ( between 1 and 10 K).
• Sleep mode key scan example
Example : S0 = 0, S1 = 1 ( sleep with only KS6 high )
14
Preliminary
HL14203
“L” KS1
“L” KS2
“L” KS3
“L” KS4
“L” KS5
“H” KS6
When any one of these keys is pressed, the
oscillator on the OSC pin is started and the keys
are scanned.
*)
KIN1
KIN2
KIN3
KIN4
KIN5
*) These diodes are required to reliable recognize multiple key presses on the KS6 line when sleep mode state with only
KS6 high, as in the above example. That is, these diodes prevent incorrect operation due to sneak currents in the KS6
key scan output signal when keys on the KS1 to KS5 lines are pressed at the same time.
Key input
(KS6 line)
Key Scan
800T
800T
CE
Write
address
Write
address
Read
address
Write
address
Read
address
SI
SO
Key data read
Key data read request
Key data read
Key data read request
Multiple Key Presses
Although the HL14203 is capable of key scanning without inserting diodes for
dual key presses, triple key presses on the KIN1 to KIN5 input pin lines, or multiple key presses on the KS1 to KS6 output pin lines, multiple presses other than
these cases may result in keys that were not pressed recognized as having been
pressed. Therefore, a diode must be inserted in series with each key. Application
that do not recognize multiple key presses of threes or keys should check the key
data for three or more 1 bits and ignore such data.
15
Preliminary
HL14203
9. LCD Display Function
1) 1/3 Duty 1/2 Bias Waveforms
COM1
VDD
VCL1,VCL2
0
COM2
VDD
VCL1,VCL2
0
COM3
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“Off” at COM1
~ COM3
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“On” at COM1
~ COM3
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“On” at COM1
only
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“On” at COM2
only
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“On” at COM3
only
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“On” at COM1
and COM2
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“On” at COM1
and COM3
VDD
VCL1,VCL2
0
SEG1 ~ SEG42
“On” at COM2
and COM3
VDD
VCL1,VCL2
0
16
Preliminary
HL14203
2) 1/3 Duty 1/3 Bias Waveforms
COM1
VDD
VCL1
VCL2
0
COM2
VDD
VCL1
VCL2
0
COM3
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“Off” at COM1
~ COM3
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“On” at COM1
~ COM3
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“On” at COM1
only
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“On” at COM2
only
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“On” at COM3
only
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“On” at COM1
and COM2
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“On” at COM1
and COM3
VDD
VCL1
VCL2
0
VDD
VCL1
VCL2
0
SEG1 ~ SEG42
“On” at COM2
and COM3
17
Preliminary
HL14203
10. Power On Reset
1) Supply Voltage Detection ( SVD )
The SVD generates an output signal and resets the system when power is
first applied and when the voltage drops, I.e.,when the power supply voltage is
less than or equal to the power down detection voltage, which is 2.5V, typical.
To assure that this function operates reliably, a capacitor must be added to the
power supply voltage Vdd rise time when power is first applied and the power
supply voltage Vdd fall time when the voltage drops are both at least 1ms.
2) System Reset
If at least 1ms is assured as the supply voltage Vdd rise time when power is
applied, a system reset will be applied by the SVD output signal when the supply
voltage is brought up. If at least 1ms is assured as the supply voltage Vdd fall
time when power drops, a system reset will be applied in the same manner by
the SVD output signal when the supply voltage is lowered.
VDD
SVD
SVD
t1
t2
CE
Display and control data transfer
Internal data
Undefined
Defined
System reset period
Power supply voltage Vdd rise time : t1 > 1ms
Power supply voltage Vdd fall time : t2 > 1ms
3) Internal block states during the reset period
• Clock generator
Reset is applied and the base clock is stopped and OSC pin state is low.
• Common , segment drive and display data
Reset is applied and the display is turned off but display data is not cleared.
• Key scan
Reset is applied and all the key data is set to low.
18
Preliminary
HL14203
4) Output pin states during the reset period
• SEG1/P1 to SEG4/P4
:
Low *)
• SEG5 to SEG40
:
Low
• COM1 to COM3
:
Low
• KS1/SEG41, KS2/SEG42
:
Low *)
• KS3 to KS5
:
X
• KS6
:
High
• SO
:
High
*) These output pins are forcibly set to the segment output function and held low.
11. Power Down Mode
Sleep mode is set up by setting S0 or S1 in the control data to 1. The segment
outputs will all go low and the common outputs will also go low, and the oscillator
on the OSC pin will stop ( it will be started by a key press). This reduces power
dissipation. This mode is cleared by sending control data with both S0 and S1 set
to 0. Note that the SEG1/P1 to SEG4/P4 outputs can be used as general purpose
output ports according to the state of the P0 and P1 control data bits, even in
sleep mode.
19
Preliminary
HL14203
12. Oscillator Port
OSC Pin Diagram
R
OSC
Internal clock
SLEEP
C
Oscillator circuit consists of internal R and C.
Using Capacitor
No Capacitor
OSC
OSC
Open
C
HL14203 has internal resistor and capacitor, so it can be oscillation without external capacitor.
If you want to adjust the clock period then you can adjust it using external capacitor.
20
Preliminary
HL14203
13. Electrical Characteristics
Absolute Maximum Rating at Ta=25¡ É
, Vss = 0V
Parameter
Maximum supply voltage
Input voltage
Output voltage
Output current
Allowable power dissipation
Operating temperature
Storage temperature
Symbol
VDD max
Vin1
Vin2
Vout1
Vout2
Iout1
Iout2
Iout3
Iout4
Pd max
Topr
Tstg
Condition
VDD
CE,SCK,SI
OSC,KIN1 to KIN5, TEST,VCL1,2
SO
OSC, SEG1 to SEG42, COM1 to
COM3, KS1 to KS6, P1 to P4
SEG1 to SEG42
COM1 to COM3
KS1 to KS6
P1 to P4
Ta = 85¡ É
Rating
-0.3 to +7.0
-0.3 to +7.0
-0.3 to VDD+0.3
-0.3 to +7.0
unit
V
V
V
V
-0.3 to VDD+0.3
V
300
3
1
5
200
-40 to +85
-55 to +125
uA
mA
mA
mA
mW
¡ É
¡ É
Recommend operating ranges at Ta= -40¡ Éto +85¡ É
, Vss = 0V
Parameter
Supply voltage
Input voltage
Input high level voltage
Input low level voltage
Recommended external
capacitance
Guaranteed oscillation range
Data setup time
Data hold time
CE wait time
CE setup time
CE hold time
High level clock pulse width
Low level clock pulse width
Rise time
Fall time
Symbol
VDD
VCL1
VCL2
VIH1
VIH2
VIL
Condition
VDD
VCL1
VCL2
CE,SCK,SI
KIN1 to KIN5
CE,SCK,SI,KIN1 to KIN5
COSC
OSC
fOSC
tds
tdh
tcp
tcs
tch
t0H
toL
tr
tf
OSC
SCK,SI
SCK,SI
CE,SCK
CE,SCK
CE,SCK
SCK
SCK
CE,SCK,SI
CE,SCK,SI
SO,RPU = 4.7kΩ,
CL = 10pF*1
SO,RPU = 4.7kΩ,
CL = 10pF*1
SO output delay time
tdc
SO rise time
tdr
min
4.5
typ
max
6.0
2/3VDD VDD
1/3VDD VDD
0.8VDD
6.0
0.6VDD
VDD
0
0.2VDD
unit
V
V
V
V
V
V
TBD
pF
TBD
160
160
160
160
160
160
160
38
TBD
160
160
KHz
ns
ns
ns
ns
ns
ns
ns
ns
ns
1.5
µs
1.5
µs
Note : *1.Since SO is an open-drain output, these values depend on the resistance of the pull-up resistor RPU and
load capacitance CL .
21
Preliminary
HL14203
Electrical Characteristics for the Allowable Operating Ranges
Parameter
Hysteresis
Supply voltage detection
Input high level current
Input low level current
Input floating voltage
Pull-down resistance
Output off leakage current
Output high level voltage
Output low level voltage
Symbol
VH
SVD
IIH
IIL
VIF
RPD
IOFFH
VOH1
VOH2
VOH3
VOH4
VOL1
VOL2
VOL3
VOL4
VOL5
VMID1
VMID2
Output middle level voltage*2
VMID3
VMID4
VMID5
Oscillator frequency
Current drain
fOSC
IDD1
IDD2
IDD3
Condition
CE,SCK,SI
min
TBD
CE,SCK,SI : V1 = 6.0V
CE,SCK,SI : V1 = 0V
KIN1 to KIN5
KIN1 to KIN5 : VDD = 5.0V
SO : VO = 6.0V
KS1 to KS6 : I0 = -500µA
P1 to P4 : I0 = -1mA
SEG1 to SEG42 : I0 = -20µA
COM1 to COM3 : I0= -100µA
KS1 to KS6 : I0 = 25µA
P1 to P4 : I0 = 1mA
SEG1 to SEG42 : I0 = 20µA
COM1 to COM3 : I0 = 100µA
SO : I0 = 1 mA
COM to COM3 : 1/2 bias,
Io = ¡ ¾100µA
SEG1 to SEG42 : 1/3 bias,
Io = ¡ ¾20µA
SEG1 to SEG42 : 1/3 bias,
Io = ¡ ¾20µA
COM to COM3 : 1/3 bias,
Io = ¡ ¾100µA
COM to COM3 : 1/3 bias,
Io = ¡ ¾100µA
OSC : C = TBD
Sleep mode
VDD = 6.0V, output open,
1/2 bias,fOSC = 38 KHz
VDD = 6.0V, output open,
1/3 bias,fOSC = 38 KHz
typ
O.1VDD
2.5
max
TBD
5.0
-5.0
0.05VDD
250
6.0
VDD -1.2 VDD -0.5 VDD -0.2
VDD -1.0
VDD -1.0
VDD -1.0
0.2
0.5
1.5
1.0
1.0
1.0
0.1
0.5
1/2 VDD
1/2VDD
-1.0
+1.0
2/3VDD
2/3VDD
-1.0
+1.0
1/3VDD
1/3VDD
-1.0
+1.0
2/3VDD
2/3VDD
-1.0
+1.0
1/3VDD
1/3VDD
-1.0
+1.0
TBD
38
TBD
100
50
100
unit
V
V
µA
µA
V
kΩ
µA
V
V
V
V
V
V
V
V
V
V
V
V
V
V
KHz
µA
350
700
µA
300
600
µA
Note : *2. Excluding the bias voltage generation divider resistor built into VCL1 and VCL2
22
Preliminary
HL14203
Timing diagram of SIO
CE
t0L
t0H
SCK
tr
tf
SI
tds
tdh
SO
VIH1
VIL
CE
SCK
tcp
tch
tcs
SI
SO
tdc
23
tdr
Preliminary
HL14203
14. Application
1/2 bias ( for use with normal panels )
(p 1)
(p 2)
(p 3)
(p 4)
(general-purpose
output ports)
Used with the
backlight controller
or other circuit.
VDD
COM1
COM2
COM3
P1 / SEG1
P2 / SEG2
P3 / SEG3
P4 / SEG4
SEG5
..
..
.
SEG40
*1)
VSS
TEST
C ≥ 0.047uF
VCL1
VCL2
C
S
E
G
4
CE
2
SCK K K K K K
/
I I I I I K K K K K
SI
SO N N N N N S S S S S
5 4 3 2 1 6 5 4 3 2
From the controller
To the controller
To the controller
power supply
S
E
G
4
1
/
K
S
1
LCD panel (up to 126 segments
OSC
+5V
..
..
.
(SEG41)
(SEG42)
*2)
•
Key matrix
(up to 30 keys)
•
¡ ¡Æ Æ
Note : *1). Add a capacitor to the power supply line so that the power supply voltage VDD rise time when power is
applied and the power supply voltage VDD fall time when power drops are both at least 1 ms, as the
HL14203 is reset by the SVD.
*2). The SO pin, being an open-drain output, requires a pull-up resistor, Select a resistance (between 1 to 10kΩ)
appropriate for the capacitance of the external wiring so that signal waveforms are not degraded.
24
Preliminary
HL14203
1/3 bias ( for use with normal panels )
(p 1)
(p 2)
(p 3)
(p 4)
(general-purpose
output ports)
Used with the
backlight controller
or other circuit.
VDD
COM1
COM2
COM3
P1 / SEG1
P2 / SEG2
P3 / SEG3
P4 / SEG4
SEG5
..
..
.
SEG40
*1)
VSS
TEST
C ≥ 0.047uF
C
S
E
G
4
CE
1
SCK K K K K K
/
I I I I I K K K K K
SI
SO N N N N N S S S S S
5 4 3 2 1 6 5 4 3 2
From the controller
To the controller
To the controller
power supply
C
VCL1
VCL2
S
E
G
4
1
/
K
S
1
LCD panel (up to 126 segments
OSC
+5V
..
..
.
(SEG41)
(SEG42)
*2)
•
Key matrix
(up to 30 keys)
•
¡ ¡Æ Æ
Note : *1). Add a capacitor to the power supply line so that the power supply voltage VDD rise time when power is
applied and the power supply voltage VDD fall time when power drops are both at least 1 ms, as the
HL14203 is reset by the SVD.
*2). The SO pin, being an open-drain output, requires a pull-up resistor, Select a resistance (between 1 to 10kΩ)
appropriate for the capacitance of the external wiring so that signal waveforms are not degraded.
25
Preliminary
HL14203
1/3 bias ( for use with large panels )
(p 1)
(p 2)
(p 3)
(p 4)
(general-purpose
output ports)
Used with the
backlight controller
or other circuit.
VDD
COM1
COM2
COM3
P1 / SEG1
P2 / SEG2
P3 / SEG3
P4 / SEG4
SEG5
..
..
.
SEG40
*1)
VSS
TEST
C ≥ 0.047uF
C
R
•
R
•R
C
S
E
G
4
CE
1
SCK K K K K K
/
I I I I I K K K K K
SI
SO N N N N N S S S S S
5 4 3 2 1 6 5 4 3 2
From the controller
To the controller
To the controller
power supply
VCL1
VCL2
S
E
G
4
1
/
K
S
1
LCD panel (up to 126 segments
OSC
+5V
..
..
.
(SEG41)
(SEG42)
*2)
•
Key matrix
(up to 30 keys)
•
¡ ¡Æ Æ
Note : *1). Add a capacitor to the power supply line so that the power supply voltage VDD rise time when power is
applied and the power supply voltage VDD fall time when power drops are both at least 1 ms, as the
HL14203 is reset by the SVD.
*2). The SO pin, being an open-drain output, requires a pull-up resistor, Select a resistance (between 1 to 10kΩ)
appropriate for the capacitance of the external wiring so that signal waveforms are not degraded.
26
Preliminary