KB HE83R540

KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
A.HE83R540 Introduction
HE83R540 is a member of 8-bit Micro-controller series developed by King Billion Electronics Ltd.
Users can chose any one of combination among 【1024 dots LCD Driver + 16 Bit I/O Port】…【896 dots
LCD Driver + 24 Bit I/O Port】etc. The built-in OP comparator can be used with (light、voice、
temperature、humility) sensor and used as battery low detection. The 7-bit current-type D/A converter and
PWM device provide the complete speech output mechanism. The 512K ROM Size can be used in the
storage of speech、graphic、text etc.. . It can be applicable to the medium systems such as Small-Scale
Dictionary, Data Bank, Educational Toy, Digital Voice Recording System etc. It also can be connected to
SRAM or Flash RAM for recording function.
The instruction set of HE83R540 are quite easy to learn and simple to use. Only about thirty instructions
with four-type addressing mode are provided. Most of instructions take only 3 oscillator clocks (machine
cycles). The processing power is enough to most of battery operation system.
B.HE83R540 Features
z
z
Operation Voltage：
System Clock：
2.4V – 5.5V
DC ~ 8MHz @ 5.0V
DC ~ 4MHz @ 2.4V
512K Bytes
4K Bytes
Normal (Fast) clock： 32.768K ~ 8MHz
Slow clock：
32.768KHz
DUAL、FAST、SLOW、IDLE、SLEEP Mode.
z
z
z
Internal ROM：
Internal RAM：
Dual Clock System ：
z
Operation Mode：
z
z
With WDT (WATCH DOG TIMER) to prevent deadlock condition.
16~24 bit Bi-directional I/O port. Mask Option can select PUSH-PULL or OPEN DRAIN
output mode for each I/O pin. 8 of them are shared with LCD segment pins.
One built-in OP comparator.
1024~896 dots LCD driver (B TYPE selectable). (No LCD contrast control function)
Build in LCD Voltage Regulator.
One 7-bit current-type DAC output.
PWM device.
Two external interrupts and three internal timer interrupts.
Two 16-bit timers and one Time-Base timer.
Instruction set： 32 instructions, 4 addressing mode. 12-bit DATA POINTER for RAM and
z
z
z
z
z
z
z
z
18-bit TABLE POINTER for ROM.
1
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KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
C. Internal Block
Please always take in mind that ICE is different from IC. ICE is the whole set of HE80000 series IC, but
each IC is a subset of ICE. Never use any hardware resource that real IC didn't have, especially RAM and
register. KBIDS and compiler cannot prevent user to use some hardware resource that didn't exist. Please
check the following table and refer the abbreviation in HE80000 user's manual.
I.F.C. E.S.C. I.P.R PROM DROM
TP TP+1 RAM PP DP
I/O DTMF WDT
Timer
64KB
448KB 19-bit ◎
4KB 4-bit 8-bit 16~24
—
◎
◎
◎
◎ T1,T2,TB
VO DAO OP PWM
LCD
COM*SEG Bias Rgr ChrgPmp LV2 LR LVG REC
S.R.
1024~896
16*64
1/5 ◎
—
— —
—
—
—
◎
◎
◎
◎
D. Pin Description
Pin#
111,
110
Pin name I/O
FXI,
FXO
SXI,
SXO
I,
O
109
RSTP_N
I
112
TSTP_P
I
116..
123
PRTD[7:0]
Description
External fast clock pin. Mask option setting：
B, Connecting to crystal or RC MO_FCK/SCKN = 00：Slow Clock only
O to generate 32.768 kHz ~
01：Illegal
8MHz frequency.
10：Dual Clock
114,
113
124..127,
PRTC[7:0]
1..4
Function
B
B
11：Fast Clock only
MO_FOSCE = 0：Internal fast osc.
External slow clock pin.
= 1：External fast osc.
Connecting with 32768 Hz MO_FXTAL = 0：RC osc. for fast clock
crystal or resistor as slow
= 1：X’tal osc. for fast clock
clock and providing clock
MO_SXTAL = 0：RC for 32768 Hz clock
source for LCD display,
= 1：X’tal for 32768 Hz clock
TIMER1, Time-Base and
Use OP1 and OP2 to switch among different operation
other internal blocks.
mode (NORMAL, SLOW, IDEL and SLEEP). In Dual
Clock mode, the main system clock is still the Fast
Clock. The 32768 Hz clock is for LCD and Timer 1 only.
Level trigger, active low. Except for using this pin, using
mask option (MO_PORE=1) could enable IC build-in
Power-on reset circuit.
System Reset.
Besides, MO_WDTE can set Watch Dog Timer：
MO_WDTE=0：Disable Watch Dog Timer
=1：Enable Watch Dog Timer
Please bond this pin and add a test point on PCB
Test Pin
for debugging. But for improving ESD, please
connect this pin with zero Ohm resistor to GND.
Mask options：
MO_CPP[7..0]=1 ~ Push-pull.
8-pin bi-directional I/O port.
=0 ~ Open-drain.
Output must be “1” before reading whenever use them as
input (No tri-state structure).
8-pin bi-directional I/O port. Mask options：
PRTD[7..2] as wake-up pin. MO_DPP[7..0]=1 ~ Push-pull.
PRTD[7..6] as external
=0 ~ Open-drain.
interrupt pin.
Output must be “1” before reading whenever use them as
2
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KING BILLION ELECTRONICS CO., LTD
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Pin#
Pin name I/O
Function
HE83R540
HE80000 SERIES
Description
input (No tri-state structure).
Mask options：
MO_LIO14[7..0]=1 ~ LCD Pin.
8-pin bi-directional I/O port
=0 ~ I/O Pin.
PRT14[7:0]/ B/
15..22
that is shared with LCD MO_14PP[7..0]=1 ~ Push-pull.
SEG[63:56] O
segment pin.
=0 ~ Open-drain.
Output must be “1” before reading whenever use them as
input (No tri-state structure).
14..7
COM[15:0] O LCD COMmon Output
79..86
LCD Data filled from F0H, please refer the LCD RAM
23..
map.
SEG[55:0] O LCD SEGment Output
78
101
B LCD Bias Voltage 1
L V1
LV5> LV4> LV3> LV2> LV1。
100
B LCD Bias Voltage 2
L V2
Adjust Resistor between LCDGS and LV2 to set LV5 for
89
B LCD Bias Voltage 3
L V3
LCD glass. The formula is LV5 = 2.5*LV2。(Bias=1/5)
88
B LCD Bias Voltage 4
L V4
Suggest that LV2=2.0V, so LV5=5.0V.
87
B LCD Bias Voltage 5
L V5
99
B LCD Gain Setting Pin
~300K between LCDGS and LV2 Î LV2≒2.0 Volt
LCDGS
90
LCDVTB B Charge Pump Capacitor Pin Larger voltage stair than LCxA, LCxB stair
102
B Charge Pump Capacitor Pin Smaller voltage stair than LCxA, LCxB stair
LCDVX
91
B Charge Pump Capacitor Pin
LC4B
92
B Charge Pump Capacitor Pin
LC4A
93
B Charge Pump Capacitor Pin Different LCD Bias must be matching its Capacitor
LC3B
94
B Charge Pump Capacitor Pin Configuration relatively. This IC is with all pins for
LC3A
95
B Charge Pump Capacitor Pin type-IV LCD Driver. Some of charge pump pins was not
LC2B
96
B Charge Pump Capacitor Pin using since the bias of this IC was fixed at 1/5.
LC2A
97
B Charge Pump Capacitor Pin
LC1B
98
B Charge Pump Capacitor Pin
LC1A
The PWM output can drive
5
O
Set the bit2 of VOC register as one to turn on PWM.
PWM
speaker or buzzer directly.
104
O D/A output.
Bit 1 of VOC = ‘1’ , Turn on DA
VO
Set the bit1(DA=1) of VOC register to turn on DAC with
105
O DAC Voice Output
DAO
VO output.
106
I OPAMP negative input pin.
OPIN
Built-in OP comparator.
107
I OPAMP positive input pin.
OPIP
Set Bit 0 of VOC = ‘1’ , Turn on OP
108
O OPAMP output pin.
OPO
115
P Positive Power Input
VDD
Adding 0.1 µF capacitor as by-pass capacitor on power
103
P Power Ground Input
GND
pins is necessary.(within 1 cm distance)
6
GND_PWM P Dedicated PWM Ground
3
V1.31E
KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
E.LCD RAM Map
Page SEG SEG SEG SEG SEG SEG SEG SEG
0
[7:0] [15:8] [23:16] [31:24] [39:32] [47:40] [55:48] [63:56]
COM0 80H 90H A0H B0H C0H D0H E0H F0H
COM1 81H 91H A1H B1H C1H D1H E1H F1H
COM2 82H 92H A2H B2H C2H D2H E2H F2H
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
:
COM13 8DH 9DH ADH BDH CDH DDH EDH FDH
COM14 8EH 9EH AEH BEH CEH DEH EEH FEH
COM15 8FH 9FH AFH BFH CFH DFH EFH FFH
F. Pin Diagram
P
R
T
C
[
4
]
P
R
T
C
[
5
]
P
R
T
C
[
6
]
P
R
T
C
[
7
]
P
R
T
D
[
0
]
P
R
T
D
[
1
]
P
R
T
D
[
2
]
P
R
T
D
[
3
]
P
R
T
D
[
4
]
PRTC[3]
PRTC[2]
PRTC[1]
PRTC[0]
PWM
GND_PWM
COM[8]
COM[9]
COM[10]
COM[11]
COM[12]
COM[13]
COM[14]
COM[15]
PRT14[7]/SEG[63]
PRT14[6]/SEG[62]
PRT14[5]/SEG[61]
PRT14[4]/SEG[60]
PRT14[3]/SEG[59]
PRT14[2]/SEG[58]
PRT14[1]/SEG[57]
PRT14[0]/SEG[56]
SEG[55]
SEG[54]
SEG[53]
SEG[52]
SEG[51]
SEG[50]
SEG[49]
SEG[48]
SEG[47]
P
R
T
D
[
5
]
P
R
T
D
[
6
]
P
R
T
D
[ V S S
7 D X X
] D I O
T
R
S
S
T
T
O O
P F F P O P P D
G
_ X X _ P I I A V N
P I O N O P N O O D
L
L
C
C
D L L D
V V V G
X 1 2 S
L
C
1
A
L
C
1
B
L
C
2
A
L
C
2
B
LC3A
LC3B
LC4A
LC4B
LCDVTB
LV3
LV4
LV5
COM[0]
COM[1]
COM[2]
COM[3]
COM[4]
COM[5]
COM[6]
COM[7]
SEG[0]
SEG[1]
SEG[2]
SEG[3]
SEG[4]
SEG[5]
SEG[6]
SEG[7]
SEG[8]
SEG[9]
SEG[10]
SEG[11]
SEG[12]
SEG[13]
SEG[14]
Product Name
Die Size: 4520 µm * 3910 µm。
Substrate connect with GND。
S
E
G
[4
6]
S
E
G
[4
5]
S
E
G
[4
4]
S
E
G
[4
3]
S
E
G
[4
2]
S
E
G
[4
1]
S
E
G
[4
0]
S
E
G
[3
9]
S
E
G
[3
8]
S
E
G
[3
7]
S
E
G
[3
6]
S
E
G
[3
5]
S
E
G
[3
4]
S
E
G
[3
3]
S
E
G
[3
2]
S
E
G
[3
1]
4
S
E
G
[3
0]
S
E
G
[2
9]
S
E
G
[2
8]
S
E
G
[2
7]
S
E
G
[2
6]
S
E
G
[2
5]
S
E
G
[2
4]
S
E
G
[2
3]
S
E
G
[2
2]
S
E
G
[2
1]
S
E
G
[2
0]
S
E
G
[1
9]
S
E
G
[1
8]
S
E
G
[1
7]
S
E
G
[1
6]
S
E
G
[1
5]
V1.31E
KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
G. Bonding Pad Location
PIN
Number
PIN
Name
X
Coordinate
Y
Coordinate
PIN
Number
PIN
Name
X
Coordinate
Y
Coordinate
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
PRTC[3]
PRTC[2]
PRTC[1]
PRTC[0]
PWM
GND_PWM
COM[8]
COM[9]
COM[10]
COM[11]
COM[12]
COM[13]
COM[14]
COM[15]
PRT14[7]
PRT14[6]
PRT14[5]
PRT14[4]
PRT14[3]
PRT14[2]
PRT14[1]
PRT14[0]
SEG[55]
SEG[54]
SEG[53]
SEG[52]
SEG[51]
SEG[50]
SEG[49]
SEG[48]
SEG[47]
SEG[46]
SEG[45]
SEG[44]
SEG[43]
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-2190.00
-1829.60
-1714.60
-1599.60
-1484.60
1839.70
1724.70
1609.70
1494.70
1379.70
1264.70
1131.40
1016.90
901.90
786.90
671.90
556.90
441.90
326.90
211.40
96.40
-18.60
-133.60
-248.60
-363.60
-478.60
-593.60
-792.80
-907.80
-1022.80
-1137.80
-1252.80
-1367.80
-1482.80
-1597.80
-1841.60
-1885.00
-1885.00
-1885.00
-1885.00
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
SEG[13]
SEG[12]
SEG[11]
SEG[10]
SEG[9]
SEG[8]
SEG[7]
SEG[6]
SEG[5]
SEG[4]
SEG[3]
SEG[2]
SEG[1]
SEG[0]
COM[7]
COM[6]
COM[5]
COM[4]
COM[3]
COM[2]
COM[1]
COM[0]
LV5
LV4
LV3
LCDVTB
LC4B
LC4A
LC3B
LC3A
LC2B
LC2A
LC1B
LC1A
LCDGS
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
2190.00
1871.05
1756.05
1641.05
1526.05
1411.05
-1597.80
-1482.80
-1367.80
-1252.80
-1137.80
-1022.80
-907.80
-792.80
-593.60
-478.60
-363.60
-248.60
-133.60
-18.60
96.40
211.40
326.40
441.40
556.40
671.40
786.40
901.40
1023.00
1138.00
1253.00
1368.00
1483.00
1598.00
1713.00
1828.00
1885.00
1885.00
1885.00
1885.00
1885.00
5
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KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
PIN
Number
PIN
Name
X
Coordinate
Y
Coordinate
PIN
Number
PIN
Name
X
Coordinate
Y
Coordinate
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
SEG[42]
SEG[41]
SEG[40]
SEG[39]
SEG[38]
SEG[37]
SEG[36]
SEG[35]
SEG[34]
SEG[33]
SEG[32]
SEG[31]
SEG[30]
SEG[29]
SEG[28]
SEG[27]
SEG[26]
SEG[25]
SEG[24]
SEG[23]
SEG[22]
SEG[21]
SEG[20]
SEG[19]
SEG[18]
SEG[17]
SEG[16]
SEG[15]
-1369.60
-1254.60
-1139.60
-1024.60
-909.60
-794.60
-679.60
-564.60
-449.60
-334.60
-219.60
-104.60
104.60
219.60
334.60
449.60
564.60
679.60
794.60
909.60
1024.60
1139.60
1254.60
1369.60
1484.60
1599.60
1714.60
1829.60
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
-1885.00
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
LV2
LV1
LCDVX
GND
VO
DAO
OPIN
OPIP
OPO
RSTP_N
FXO
FXI
TSTP_P
SXO
SXI
VDD
PRTD[7]
PRTD[6]
PRTD[5]
PRTD[4]
PRTD[3]
PRTD[2]
PRTD[1]
PRTD[0]
PRTC[7]
PRTC[6]
PRTC[5]
PRTC[4]
1296.05
1181.05
1066.05
949.60
834.60
719.60
604.60
489.60
374.60
259.60
144.60
29.60
-85.40
-200.40
-315.40
-430.40
-545.40
-660.40
-859.60
-974.60
-1089.60
-1204.60
-1319.60
-1434.60
-1549.60
-1664.60
-1779.60
-1894.60
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
1885.00
64
SEG[14]
2190.00
-1841.60
6
V1.31E
KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
H. DC/AC Characteristics
Absolute Maximum Rating
Item
Supply Voltage
Input Voltage
Output Voltage
Operating Temperature
Storage Temperature
Sym.
Rating
Vdd
-0.5V ~ 8V
Vin -0.5V ~ Vdd+0.5V
Vo
-0.5V ~ Vdd+0.5V
Top
00C ~ 700C
Tst
-500C ~ 1000C
Condition
Recommended Operating Conditions
Item
Supply Voltage
Input Voltage
Operating Frequency
Operating Temperature
Storage Temperature
Sym.
Vdd
Vih
Vil
Fmax
Top
Tst
Rating
2.4V ~ 5.5V
0.9 Vdd ~ Vdd
0.0V ~ 0.1Vdd
8MHz
4MHz
00C ~ 700C
-500C ~ 1000C
7
Condition
Vdd =5.0V
Vdd =2.4V
V1.31E
KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
Testing Condition : TEMP=25℃, VDD=3V+/-10%, GND=0V
IFast
PARAMETER
NORMAL Mode Current
CONDITION
2M ext. R/C
32.768K X’tal
LCD Disable
32.769K X’tal
LCD Disable
LCD Enable
System
ISlow SLOW Mode Current
System
IIdle IDLE Mode Current
System
MIN TYP MAX UNIT
0.75 1
mA
System
ILCD Extra Current if LCD ON
System
ISleep Sleep Mode Current
12
IoHPWM PWM Output Drive Current PWMP, PWMN*2 VDD=3V; Voh=2V
*2
PWMP, PWMN VDD=3V; VoL=1V
33
IoLPWM PWM Output Sink Current
VO, DAO
VDD=3V;VO=0~2V,Data=7F 2.5
IoVO DAC Output Current
0.8
I/O pins
ViH Input High Voltage
VDD
ViL
Input Low Voltage
20
µA
6
10
µA
90
100
1
µA
µA
mA
mA
mA
15
40
3
I/O, RSTP_N
IoH Output Drive Current
IoL_1 Output Sink Current
I/O pull-high*1
I/O pull-low*1
IiL_1 Input Low Current
RSTP_N
IiL_2 Input Low Current
I/O
V
0.2
VDD
I/O pins
Vhys Input Hysteresis Width
Note:
10
Threshold=2/3VDD(input
from low to high)
1/3
Threshold=1/3VDD(input
VDD
from high to low)
VoL=2.0V
50
VoL=0.4V
1.0
ViL=GND, pull high
20
Internally
ViL=GND, if pull high
100
Internally by user
V
V
µA
mA
µA
µA
*1: Drive Current Spec. for Push-Pull I/O port only
Sink Current Spec. for both Push-Pull and Open-Drain I/O port.
*2: This Spec. base on one driver only. There are five build-in driver, so user just multiply
the number of driver he used to one driver current to get the total amount of current.
( IoHPWM、IoLPWM * N; N=0,1,2,3,4,5)
8
V1.31E
KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
I. Application Circuit
External Fast Clock
External Slow Clock
Ref. AN016
External Reset
VDD
Ref. AN016
VDD
FXI
C1
10P
SXI
XTAL1
480K~8M
FXO
C4
R2
10k
10P
SXO
C5
RSTP_N
R3
30K~300K
RC Oscillator
C6
0.1uF
SXO
X'TAL Oscillator
VDD
C15
0.1uF
C14
10U
C16
0.1uF
C18
VDD
LC2A
LCDVX
LV1
LV2
LCDGS
FXI
FXO
RSTP_N
OPO
OPIP
OPIN
DAO
VO
SXI
SXO
PRTC_4
PRTC_5
PRTC_6
PRTC_7
PRTD_0
PRTD_1
PRTD_2
PRTD_3
PRTD_4
PRTD_5
PRTD_6
PRTD_7
VDD
SXI
SXO
TSTP_P
FXI
FXO
RSTP_N
OPO
OPIP
OPIN
DAO
VO
GND
LCDVX
LV1
LV2
LCDGS
LC1A
LC1B
LC2A
LC2B
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
102
101
100
99
98
97
96
95
PRTC_4
PRTC_5
PRTC_6
PRTC_7
PRTD_0
PRTD_1
PRTD_2
PRTD_3
PRTD_4
PRTD_5
PRTD_6
PRTD_7
SEG63
SEG62
SEG61
SEG60
SEG59
SEG58
SEG57
SEG56
PRTC_3
PRTC_2
PRTC_1
PRTC_0
PWM
GND_PWM
COM8
COM9
COM10
COM11
COM12
COM13
COM14
COM15
PRT14_7 / SEG[63]
PRT14_6 / SEG[62]
PRT14_5 / SEG[61]
PRT14_4 / SEG[60]
PRT14_3 / SEG[59]
PRT14_2 / SEG[58]
PRT14_1 / SEG[57]
PRT14_0 / SEG[56]
SEG55
SEG54
SEG53
SEG52
SEG51
SEG50
SEG49
SEG48
SEG47
HE83R540
LC3A
LC3B
LC4A
LC4B
LCDVTB
LV3
LV4
LV5
COM0
COM1
COM2
COM3
COM4
COM5
COM6
COM7
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
64
LC3A
LC3B
LC4A
LC4B
LV3
LV4
LV5
COM0
COM1
COM2
COM3
COM4
COM5
COM6
COM7
SEG0
SEG1
SEG2
SEG3
SEG4
SEG5
SEG6
SEG7
SEG8
SEG9
SEG10
SEG11
SEG12
SEG13
SEG14
SEG46
SEG45
SEG44
SEG43
SEG42
SEG41
SEG40
SEG39
SEG38
SEG37
SEG36
SEG35
SEG34
SEG33
SEG32
SEG31
SEG30
SEG29
SEG28
SEG27
SEG26
SEG25
SEG24
SEG23
SEG22
SEG21
SEG20
SEG19
SEG18
SEG17
SEG16
SEG15
COM8
COM9
COM10
COM11
COM12
COM13
COM14
COM15
PRT14_7 /
PRT14_6 /
PRT14_5 /
PRT14_4 /
PRT14_3 /
PRT14_2 /
PRT14_1 /
PRT14_0 /
SEG55
SEG54
SEG53
SEG52
SEG51
SEG50
SEG49
SEG48
SEG47
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
PRTC_3
PRTC_2
PRTC_1
PRTC_0
PWM
8 ohm Speaker
8050C
R5
680~1.2M
0.1u
R6
0
U1
Q1
VO
SP2
SEG46
SEG45
SEG44
SEG43
SEG42
SEG41
SEG40
SEG39
SEG38
SEG37
SEG36
SEG35
SEG34
SEG33
SEG32
SEG31
SEG30
SEG29
SEG28
SEG27
SEG26
SEG25
SEG24
SEG23
SEG22
SEG21
SEG20
SEG19
SEG18
SEG17
SEG16
SEG15
SP1
Ref. AN022 VDD
for Speech
Output
VDD
PWM
RESET
RC Oscillator
Regulate And By-Pass Capacitor
32 ohm Speaker
SW1
10P
C8
0.1uF
X'TAL Oscillator
R1
10k
SXI
XTAL2
10K~70K
FXI
10P
C2
9
V1.31E
KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
4G LCD Charge Pump Circuit,1/5 Bias,1/16 Duty Configulation
LV5 Voltage Must < 9.0 V , Else IC will be burned down
Let LC1A,LC1B,LC2B,LCDVTB pin folating
LCD Display Range
LCD PANEL
PRT14 [0:7] / SEG [56:63]
SEG [0:55]
COM [0:15]
16 * 56 ~ 16 * 64
Regulated Voltage Capacitor
LV5
C3 .1U
LV4
C9 .1U
LV3
C10 .1U
LV2
C12 1U
LV1
C13 1U
Charge Pump Capacitor
LC3B
LC3A C7
.1U
LC4B
LC4A C11
.1U
Adjust LV2 Voltage Resister
LV2
LCDVX C17 1U
R4 ~300K
LC2A
LCDGS
NOTE : Use Resister adjust LV2 voltage must let VDD >= LV2 + 0.4V , Else LCD
charge pump will work un-well . And the LV5 voltage = LV2 *5 /2
For more detail information, please refer the new version of AN025 for this Type-IV LCD Driver.
10
V1.31E
KING BILLION ELECTRONICS CO., LTD
駿 億 電 子 股 份 有 限 公 司
HE83R540
HE80000 SERIES
J. Important Note
1. For accessing any address large than 64KB, users must update TPP first, TPH then TPL. Only by this
order, the pre-charge circuit of ROM will work correctly. 5us waiting is necessary before LDV
instruction is executed since Data ROM is a low speed ROM. Users can not emulate this accessing
process in ICE. So 5us delay should be added by firmware.
2. LCD driving circuit must be turn off before IC goes into sleep mode.
3. Please bonds the TSTP_P, RSTP_N and PRTD[7:0] with test point on PCB (can be soldered and
probed) as you can, then KB can do some IC testing job on PCB. Please connect TSTP_P pin with
zero ohm resistor(or copper wire which can be cut on PCB) normally for good ESD result. KB can
pull low the TSTP_P pin by remove the zero ohm resistor . The following figure is an example
(Testing point with through hole).
Add zero Ohm resistor
to TSTP_P.
4. LV5 must small than 9.0 Volt. Otherwise IC may breakdown.
K. Updated Record
Version
V1.31
Date
Jul 2,
2002
Section
Original Content
I
New Content
Modify Application Circuit
11
V1.31E