Series
Technical Manual
SED1520
LCD driver with RAM
NOTICE
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© Seiko Epson corporation 1998 All right reserved.
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Z80 is registered trademark of Zilog Corporation.
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SED1500 Series
Selection Guide
■
LCD drivers with RAM for small-
and medium-sized displays
Ultra-low power consumption and on-chip RAM make this series ideal for compact
LCD-based equipment.
SED1500 series
Supply voltage LCD voltage
Display
RAM (bits)
Microprocessor Frequency
Application/additional
features
Part number
Duty
1/4
Segment Common
Package
range (V)
range (V)
interface
(KHz)
SED1510D0C
SED1510D0B
SED1510F0C
SED1510F0E
SED1511D0A
SED1520D0A
SED1520D0B
SED1520F0A
SED1520F0C
SED1520T0A
SED1520DAA
SED1520DAB
SED1520FAA
SED1520FAC
SED1520TAA#
SED1521D0A
SED1521D0B
SED1521F0A
SED1521F0C
SED1521T0A#
SED1521DAA
SED1521DAB
SED1521FAA
SED1521FAC
SED1521TAA#
SED152AD0A
SED1522D0A
SED1522D0B
SED1522F0A
SED1522F0C
SED1522T0A#
SED1522DAA
SED1522DAB
SED1522FAA
SED1522FAC
SED1522TAA#
SED1540D0A
SED1540D0B
SED1540F0A
AI pad chip
Au bump chip
QFP12-48pin
QFP6-60pin
AI pad chip
AI pad chip
Au bump chip
QFP5-100pin
QFP15-100pin
TCP
Small segment-type LCD
display. Command and data
interface
18 (internal)
0.9–6.0
1.8–6.0
32
4
128
Serial
Small segment-type LCD dislays. Data only
interface
18
(internal,
external)
Dot-matrix LCD displays
Extension driver is the
SED1521.
1/16,1/32
61
16
AI pad chip
Au bump chip
QFP5-100pin
QFP15-100pin
TCP
2
(external)
AI pad chip
Au bump chip
QFP5-100pin
QFP15-100pin
TCP
18
(external)
Extension driver for the
SED1520 and SED1522
3.5–13
1/8–1/32
80
–
AI pad chip
Au bump chip
QFP5-100pin
QFP15-100pin
TCP
2,560
8-bit parallel
2.4–7.0
2
(external)
Al pad chip
AI pad chip
Au bump chip
QFP5-100pin
QFP15-100pin
TCP
P-substrate version of SED1521
18
(internal,
external)
Dot-matrix LCD displays
Extension driver is the
SED1521.
1/8,1/16
69
8
AI pad chip
Au bump chip
QFP5-100pin
QFP15-100pin
TCP
2
(external)
AI pad chip
Au bump chip
QFP5-100pin
18 (internal)
4 (external)
3.5–11
1/3,1/4
73
3, 4
Segment-type displays
# : Planning TCP : Tape Carrier Package
Supply voltage LCD voltage
Display
RAM (bits)
Microprocessor Frequency
Application/additional
features
Part number
Duty
Segment Common
Package
range (V)
range (V)
interface
(KHz)
SED1560D0A
SED1560DAA
SED1560D0B
SED1560DAB
SED1560T0B
SED1560TQA
SED1561D0A
SED1561DAA
SED1561D0B
SED1561DAB
SED1561T0B
SED1561TAB
SED1561TQA
SED1562D0A
SED1562D0B
SED1562T0B
SED1562TQA
SED1565D0B
SED1565D1B*
SED1565D2B
SED1565T0A
SED1565T0B
SED1565T0C
SED1566D0B
SED1566D1B*
SED1566D2B
SED1566T0A
SED1567D0B
SED1567D1B*
SED1567D2B
SED1567T0B
SED1567T0C
SED1568D0B
SED1569D0B
SED1569T**
SED1570D0A
SED1570D0B
SED1526D*A
SED1526D*B
SED1526F*A
SED1526T*A
SED1528D*A
SED1528D*B
SED1528F*A
SED1528T*A
Al pad chip
Al pad chip
Au bump chip
Au bump chip
TCP
1/48, 1/49
1/64, 1/65
102
65
QTCP
Al pad chip
Al pad chip
Au bump chip
Au bump chip
TCP
Built-in power circuit for LCD
(voltage tripler)
SED1560✽0B (1/9 bias)
SED1560✽AB (1/7 bias)
SED1561✽0B (1/7 bias)
SED1561✽AB (1/5 bias)
166×65
18
2.4–6.0
6.0–16.0
bits
1/24, 1/25
1/32, 1/33
134
150
33
TCP
QTCP
Al pad chip
Au bump chip
TCP
1/16, 1/17
(1/5bias)
17
65
8-bit parallel
or Serial
QTCP
Au bump chip
Au bump chip
Au bump chip
TCP
1/65
(1/7, 1/9 bias)
TCP
TCP
Au bump chip
Au bump chip
Au bump chip
TCP
1/49
49
33
132×65
Built-in power circuit for LCD
(DC/DC×4)
33
1.8–5.5
4.5–16.0
(1/6, 1/8 bias)
132
bits
Au bump chip
Au bump chip
Au bump chip
TCP
1/33
(1/5, 1/6 bias)
TCP
1/55 (1/6, 1/8 bias)
1/53
55
53
Au bump chip
Au bump chip
TCP
(1/6, 1/8 bias)
200×80
Al pad chip
Au bump chip
Al pad chip
Au bump chip
QFP5-128pin
TCP
–
2.7–5.5
2.4–6.0
8.0–20.0
3.5–
1/64–1/200
–
4-bit parallel
Built-in self-refreshing function
bits
Built-in power circuit for LCD
(voltage tripler)
SED1526✽0✽
(VREG)
SED1526✽E✽
(no VREG)
SED1526✽A✽
(redistribution of COMS)
SED1528✽0✽
(VREG)
SED1528✽E✽
(no VREG)
80
64
1/8, 1/9
17
1/16, 1/17
80×33
8-bit parallel
or Serial
20
Supply
×3
bits
Al pad chip
Au bump chip
QFP5-128pin
TCP
voltage
1/32, 1/33
33
Supply voltage LCD voltage
Display
RAM (bits)
Microprocessor Frequency
Application/additional
features
Part number
Duty
Segment Common
Package
range (V)
range (V)
interface
(KHz)
SED1530D0A
SED1530DAA
SED1530D0B
SED1530DAB
SED1530TAA
SED1531D0A
SED1531D0B
SED1531T0A
SED1532D0A
SED1532DBA
SED1532D0B
SED1532DBA
SED1532T0A
SED1532TBA
SED1535D0B*
Al pad chip
Al pad chip
Au bump chip
Au bump chip
TCP
1/32, 1/33
100
132
33
–
Built-in power circuit for LCD
(voltage quadrupler)
SED153✽✽0✽
Al pad chip
Au bump chip
TCP
(Common: Right side)
SED153✽✽A✽
132×65
8-bit parallel
or Serial
2.4–6.0
4.5–16.0
–
(Common: Both side)
SED153✽✽B✽
(Common: Left side)
SED153✽✽F✽
(no VREG)
bits
Al pad chip
Al pad chip
Au bump chip
Au bump chip
TCP
1/64, 1/65
100
98
33
35
TCP
1/35
Au bump chip
TCP : Tape Carrier Package
2. SED1520 Series
Contents
OVERVIEW ..........................................................................................................................................................2-1
FEATURES ...........................................................................................................................................................2-1
BLOCK DIAGRAM ................................................................................................................................................2-2
PACKAGE OUTLINE ............................................................................................................................................2-3
PAD ......................................................................................................................................................................2-4
Pad Arrangement .........................................................................................................................................2-4
PAD ARRANGEMENT .........................................................................................................................................2-5
PIN DESCRIPTION ..............................................................................................................................................2-6
(1) Power Pins .............................................................................................................................................2-6
(2) System Bus Connection Pins .................................................................................................................2-6
(3) LCD Drive Circuit Signals .......................................................................................................................2-7
BLOCK DESCRIPTION ........................................................................................................................................2-8
System Bus ..................................................................................................................................................2-8
Display Start Line and Line Count Registers ...............................................................................................2-9
Column Address Counter.............................................................................................................................2-9
Page Register ..............................................................................................................................................2-9
Display Data RAM........................................................................................................................................2-9
Common Timing Generator Circuit ............................................................................................................2-10
Display Data Latch Circuit..........................................................................................................................2-10
LCD Driver Circuit ......................................................................................................................................2-10
Display Timing Generator ..........................................................................................................................2-10
Oscillator Circuit (SED1520*0A Only) ........................................................................................................2-11
Reset Circuit ..............................................................................................................................................2-11
COMMANDS ......................................................................................................................................................2-14
Summary....................................................................................................................................................2-14
Command Description ...............................................................................................................................2-15
SPECIFICATIONS ..............................................................................................................................................2-20
Absolute Maximum Ratings .......................................................................................................................2-20
Electrical Specifications .............................................................................................................................2-20
APPLICATION NOTES .......................................................................................................................................2-26
MPU Interface Configuration......................................................................................................................2-26
LCD Drive Interface Configuration .............................................................................................................2-27
LCD Panel Wiring Example .......................................................................................................................2-29
Package Dimensions .................................................................................................................................2-30
– i –
SED1520 Series
OVERVIEW
FEATURES
The SED1520 family of dot matrix LCD drivers are
designed for the display of characters and graphics. The
drivers generate LCD drive signals derived from bit
mapped data stored in an internal RAM.
The drivers are available in two configurations
The SED1520 family drivers incorporate innovative
circuit design strategies to achieve very low power
dissipation at a wide range of operating voltages.
These features give the designer a flexible means of
implementing small to medium size LCD displays for
compact, low power systems.
• Fast 8-bit MPU interface compatible with 80- and 68-
family microcomputers
• Many command set
• Total 80 (segment + common) drive sets
• Low power — 30 µW at 2 kHz external clock
• Wide range of supply voltages
VDD – VSS: –2.4 to –7.0 V
VDD – V5: –3.5 to –13.0 V
• Low-power CMOS
• The SED1520 which is able to drive two lines of
twelve characters each.
• The SED1521 which is able to drive 80 segments for
extention.
• The SED1522 which is able to drive one line of
thirteen characters each.
Line-up
Number Number
of SEG of CMOS
Drivers Drivers
Clock Frequency
Product
Applicable Driver
SED1520 0 , SED1521
Duty
Name
On-Chip External
SED1520
0
0
0
18 kHz
—
18 kHz
—
—
—
18 kHz
18 kHz
18 kHz
2 kHz
2 kHz
2 kHz
0
0
0
61
80
69
61
80
69
16
0
8
16
0
8
1/16, 1/32
1/8 to 1/32
1/8, 1/16
1/16, 1/32
1/8 to 1/32
1/8, 1/16
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
SED1521
SED1522
SED1520
SED1521
SED1522
SED1520 0 , SED1522
*
*
*
*
*
*
*
*
SED1522 0 , SED1521
*
A
A
A
SED1520 A , SED1521
A
A
A
*
*
SED1520 A , SED1522
*
*
SED1522 A , SED1521
*
*
• Package code (For example SED1520)
SED1520T
SED1520F A (QFP5-100pin)
SED1520F**: PKG
*
SED1520F C (QFP15-100pin)
*
SED1520D A (Al-pad)
SED1520D**: Chip
*
SED1520D B (Au-bump)
*
EPSON
2–1
SED1520 Series
BLOCK DIAGRAM
An example of SED1520 AA:
*
LCD drive circuit
Common counter
Display data latch circuit
Display data RAM
(2560-bit)
Column address decoder
CL
FR
Display
timing
generator
circuit
Column address counter
Column address register
Command
decoder
Status
MPU interface
2–2
EPSON
SED1520 Series
PACKAGE OUTLINE
QFP5
CS2
CS3
CS4
CS5
CS6
CS7
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
85
90
95
45
V
DD
RES
F2
V5
40
35
V1
V2
Index
M/S
V4
V1
COM0
COM1
COM2
COM3
COM4
100
QFP15
50
VSS
D30
D31
D32
D33
D34
D35
D36
D37
VDD
RES
F R
V5
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG34
SEG35
SEG36
SEG37
SEG38
SEG39
SEG40
SEG41
SEG42
SEG43
SEG44
80
45
40
35
30
85
90
95
V3
V2
M/S
V4
V1
COM
0
1
2
3
4
5
6
COM
COM
COM
COM
COM
COM
Index
Note: This is an example of SED1520F pin assignment. The modified pin names are given below.
Product
Name
Pin/Pad Number
96 to 100, 1 to 11
COM0 to COM15*
SEG76 to SEG61
74
OSC1
CS
OSC1
CS
75
OSC2
CL
OSC2
CL
93
M/S
SEG79
M/S
M/S
SEG79
M/S
94
V4
SEG78
V4
V4
SEG78
V4
95
V1
SEG77
V1
V1
SEG77
V1
SED1520F0A
SED1521F0A
SED1522F0A
SED1520FAA
SED1521FAA
SED1522FAA
COM0 to 7, SEG68 to 61
COM0 to COM15*
SEG76 to SEG61
COM0 to 7, SEG68 to 61
CS
CS
CL
CL
SED1520: Common outputs COM0 to COM15 of the master LSI correspond to COM31 to COM16 of the
slave LSI.
SED1522: Common outputs COM0 to COM15 of the master LSI correspond to COM15 to COM8 of the
slave LSI.
EPSON
2–3
SED1520 Series
PAD
Pad Arrangement
Chip specifications of AL pad package
Chip specifications of gold bump package
Chip size: 4.80×7.04×0.525 mm
Bump pitch: 199 µm (Min.)
Bump height: 22.5 µm (Typ.)
Bump size: 132×111 µm (±20 µm) for mushroom
model
Chip size: 4.80×7.04×0.400 mm
Pad pitch: 100×100 µm
116×92 µm (±4 µm) for vertical model
100
95
90
85
80
1
5
75
70
10
Y
X
15
20
25
30
(0, 0)
65
60
55
35
40
4.80 mm
45
50
Note: An example of SED1520DAA die numbers is given. These numbers are the same as the bump
package.
2–4
EPSON
SED1520 Series
PAD ARRANGEMENT
An example of SED1520DA pin names is given. The
*
asterisk ( ) can be A for AL pad package or B for gold
bump package.
*
SED1520DAB Pad Center Coordinates
Pad
No.
Pin
Name
Pad
No.
Pin
Name
Pad
No.
Pin
Name
X
Y
X
Y
X
Y
1
2
3
4
5
6
7
8
COM5 159 6507
COM6 159 6308
COM7 159 6108
COM8 159 5909
COM9 159 5709
COM10 159 5510
COM11 159 5310
COM12 159 5111
COM13 159 4911
COM14 159 4712
COM15 159 4512
SEG60 159 4169
SEG59 159 3969
SEG58 159 3770
SEG57 159 3570
SEG56 159 3371
SEG55 159 3075
SEG54 159 2876
SEG53 159 2676
SEG52 159 2477
SEG51 159 2277
SEG50 159 2078
SEG49 159 1878
SEG48 159 1679
SEG47 159 1479
SEG46 159 1280
SEG45 159 1080
SEG44 159 881
SEG43 159 681
SEG42 159 482
SEG41 504 159
SEG40 704 159
SEG39 903 159
SEG38 1103 159
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
64
65
66
67
68
SEG37 1302 159
SEG36 1502 159
SEG35 1701 159
SEG34 1901 159
SEG33 2100 159
SEG32 2300 159
SEG31 2499 159
SEG30 2699 159
SEG29 2898 159
SEG28 3098 159
SEG27 3297 159
SEG26 3497 159
SEG25 3696 159
SEG24 3896 159
SEG23 4095 159
SEG22 4295 159
SEG21 4641 482
SEG20 4641 681
SEG19 4641 881
SEG18 4641 1080
SEG17 4641 1280
SEG16 4641 1479
SEG15 4641 1679
SEG14 4641 1878
SEG13 4641 2078
SEG12 4641 2277
SEG11 4641 2477
SEG10 4641 2676
SEG9 4641 2876
SEG8 4641 3075
SEG7 4641 3275
SEG6 4641 3474
SEG5 4641 3674
SEG4 4641 3948
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
100
SEG3 4641 4148
SEG2 4641 4347
SEG1 4641 4547
SEG0 4641 4789
A0
CS
CL
4641 5048
4641 5247
4641 5447
E (RD) 4641 5646
R/W (WR) 4641 5846
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
VSS
DB0
DB1
DB2
DB3
DB4
DB5
DB6
DB7
VDD
RES
FR
V5
V3
V2
M/S
V4
4641 6107
4641 6307
4641 6506
4295 6884
4095 6884
3896 6884
3696 6884
3497 6884
3297 6884
3098 6884
2898 6884
2699 6884
2499 6884
2300 6884
2100 6884
1901 6884
1701 6884
1502 6884
V1
COM0 1302 6884
COM1 1103 6884
COM2
COM3
COM4
903 6884
704 6884
504 6884
The other SED1520 series packages have the different pin names as shown.
Package/Pad No.
SED1520D0*
SED1522D0*
SED1522DA*
SED1521D0*
SED1521DA*
74
75
96 to 100, 1 to 11
COM0 to COM15 *
COM0 to 7, SEG68 to 61
COM0 to 7, SEG68 to 61
SEG76 to SEG61
93
M/S
M/S
M/S
SEG79
SEG79
94
V4
V4
V4
SEG78
SEG78
95
V1
V1
V1
SEG77
SEG77
OSC1
OSC1
OSC1
CS
OSC2
OSC2
OSC2
CL
CS
CL
SEG76 to SEG61
EPSON
2–5
SED1520 Series
PIN DESCRIPTION
(1) Power Pins
Name
Description
VDD
VSS
Connected to the +5Vdc power. Common to the VCC MPU power pin.
0 Vdc pin connected to the system ground.
V1, V2, V3, V4, V5
Multi-level power supplies for LCD driving. The voltage determined for each liquid
crystal cell is divided by resistance or it is converted in impedance by the op amp,
and supplied. These voltages must satisfy the following:
VDD ≥ V1 ≥ V2 ≥ V3 ≥ V4 ≥ V5
(2) System Bus Connection Pins
D7 to D0
Three-state I/O.
The 8-bit bidirectional data buses to be connected to the 8- or 16-bit standard MPU
data buses.
A0
Input.
Usually connected to the low-order bit of the MPU address bus and used to identify
the data or a command.
A0=0: D0 to D7 are display control data.
A0=1: D0 to D7 are display data.
RES
Input.
When the RES signal goes
the 68-series MPU is initialized, and when it
goes , the 80-series MPU is initialized. The system is reset during edge
sense of the RES signal. The interface type to the 68-series or 80-series MPU is
selected by the level input as follows:
High level: 68-series MPU interface
Low level: 80-series MPU interface
CS
Input. Active low. Effective for an external clock operation model only.
An address bus signal is usually decoded by use of chip select signal, and it is
entered. If the system has a built-in oscillator, this is used as an input pin to the
oscillator amp and an Rf oscillator resistor is connected to it. In such case, the RD,
WR and E signals must be ORed with the CS signals and entered.
E (RD)
• If the 68-series MPU is connected:
Input. Active high.
Used as an enable clock input of the 68-series MPU.
• If the 80-series MPU is connected:
Input. Active low.
The RD signal of the 80-series MPU is entered in this pin. When this signal is
kept low, the SED1520 data bus is in the output status.
R/W (WR)
• If the 68-series MPU is connected:
Input.
Used as an input pin of read control signals (if R/W is high) or write control
signals (if low).
• If the 80-series MPU is connected:
Input. Active low.
The WR signal of the 80-series MPU is entered in this pin. A signal on the data
bus is fetched at the rising edge of WR signal.
2–6
EPSON
SED1520 Series
(3) LCD Drive Circuit Signals
Name
Description
Input. Effective for an external clock operation model only.
CL
This is a display data latch signal to count up the line counter and common counter
at each signal falling and rising edges. If the system has a built-in oscillator, this is
used as an output pin of the oscillator amp and an Rf oscillator resistor is con-
nected to it.
FR
Input/output.
This is an I/P pin of LCD AC signals, and connected to the M terminal of common
driver.
I/O selection
• Common oscillator built-in model: Output if M/S is 1;
Input if M/S is 0.
• Dedicate segment model:
Input
SEGn
Output.
The output pin for LCD column (segment) driving. A single level of VDD, V2, V3 and
V5 is selected by the combination of display RAM contents and RF signal.
1
0
FR signal
Data
1
0
1
0
VDD
V2
V5
V3
Output level
COMn
Output.
The output pin for LCD common (low) driving. A single level of VDD, V1, V4 and V5
is selected by the combination of common counter output and RF signal. The
slave LSI has the reverse common output scan sequence than the master LSI.
1
0
FR signal
1
0
1
0
Counter output
Output level
V5
V1
VDD
V4
M/S
Input.
The master or slave LSI operation select pin for the SED1520 or SED1522.
Connected to VDD (to select the master LSI operation mode) or VSS (to select the
slave LSI operation mode).
When this M/S pin is set, the functions of FR, COM0 to COM15, OSC1 (CS), and
OSC2 (CL) pins are changed.
M/S
VDD
VSS
VDD
VSS
FR
Output
Input
Output
Input
COM output
OSC1
Input
NC
Input
NC
OSC2
Output
Input
Output
Input
SED1520F0A
SED1522F0A
COM0 to COM15
COM31 to COM16
COM0 to COM7
COM15 to COM8
* The slave driver has the reverse common output scan sequence than the master
driver.
EPSON
2–7
SED1520 Series
BLOCK DESCRIPTION
System Bus
MPU interface
1. Selecting an interface type
level after reset (see Table 1).
The SED1520 series transfers data via 8-bit bidirec-
tional data buses (D0 to D7). As its Reset pin has the
MPU interface select function, the 80-series MPU or
the 68-series MPU can directly be connected to the
MPU bus by the selection of high or low RES signal
When the CS signal is high, the SED1520 series is
disconnected from the MPU bus and set to stand by.
However, the reset signal is entered regardless of the
internal setup status.
Table 1
A0
↑
↑
RES signal input level
Active low
MPU type
68-series
80-series
E
↑
RD
R/W
↑
WR
CS
↑
↑
D0 to D7
↑
↑
Active high
Data transfer
The SED1520 and SED1521 drivers use the A0, E (or
RD) and R/W (or WR) signals to transfer data between
the system MPU and internal registers. The combina-
tions used are given in the table blow.
executes a read cycle to access display RAM the current
contents of the latch are placed on the system data bus
while the desired contents of the display RAM are moved
into the latch.
In order to match the timing requirements of the MPU
with those of the display data RAM and control registers
all data is latched into and out of the driver. This
introduces a one cycle delay between a read request for
data and the data arriving. For example when the MPU
This means that a dummy read cycle has to be executed
at the start of every series of reads. See Figure 1.
No dummy cycle is required at the start of a series of
writes as data is transferred automatically from the input
latch to its destination.
Common
68 MPU
R/W
80 MPU
Function
A0
1
1
0
0
RD
0
1
0
1
WR
1
0
1
0
1
0
1
0
Read display data
Write display data
Read status
Write to internal register (command)
2–8
EPSON
SED1520 Series
WRITE
MPU
WR
DATA
Bus
N
N + 1
N + 2
N + 3
Internal
timing
N
N + 1
N + 2
N + 3
hold
WR
READ
MPU
WR
RD
DATA
N
N
Dummy read
n
n + 1
Address set
at N
Data read
at N
Data read
at N + 1
WR
RD
Internal
timing
Column
address
N
N + 1
N + 2
Bus
hold
N
n
n + 1
n + 2
Figure 1 Bus Buffer Delay
Busy flag
Column Address Counter
When the Busy flag is logical 1, the SED1520 series is
executing its internal operations. Any command other
than Status Read is rejected during this time. The Busy
flag is output at pin D7 by the Status Read command. If
an appropriate cycle time (tcyc) is given, this flag needs
not be checked at the beginning of each command and,
therefore, the MPU processing capacity can greatly be
enhanced.
The column address counter is a 7-bit presettable counter
that supplies the column address for MPU access to the
display data RAM. See Figure 2. The counter is
incremented by one every time the driver receives a Read
or Write Display Data command. Addresses above 50H
are invalid, and the counter will not increment past this
value. The contents of the column address counter are set
with the Set Column Address command.
Display Start Line and Line Count
Registers
The contents of this register form a pointer to a line of
data in display data RAM corresponding to the first line
of the display (COM0), and are set by the Display Start
Line command. See section 3.
The contents of the display start line register are copied
into the line count register at the start of every frame, that
is on each edge of FR. The line count register is
incremented by the CL clock once for every display line,
thus generating a pointer to the current line of data, in
display data RAM, being transferred to the segment
driver circuits.
Page Register
The page resiter is a 2-bit register that supplies the page
address for MPU access to the display data RAM. See
Figure 2. The contents of the page register are set by the
Set Page Register command.
Display Data RAM
The display data RAM stores the LCD display data, on a
1-bit per pixel basis. The relation-ship between display
data, display address and the display is shown in Figure
2.
EPSON
2–9
SED1520 Series
Common Timing Generator Circuit
Generates common timing signals and FR frame signals
from the CL basic clock. The 1/16 or 1/32 duty (for
SED1520) or 1/8 or 1/16 duty (for SED1522) can be
selected by the Duty Select command. If the 1/32 duty is
selected for the SED1520 and 1/16 duty is selected for the
SED1522, the 1/32 and 1/16 duties are provided by two
chips consisting of the master and slave chips in the
common multi-chip mode.
SED1520
FR signal
(Master output)
0
1
2
14 15
0
1
15
Master Common
Slave Common
16 17
30 31
16 17
31
SED1522
FR signal
(Master output)
Master Common
Slave Common
0
1
2
6
7
0
1
7
8
9
14 15
8
9
15
Display Data Latch Circuit
Display Timing Generator
This latch stores one line of display data for use by the
LCD driver interface circuitry. The output of this latch
is controlled by the Display ON/OFF and Static Drive
ON/OFF commands.
This circuit generates the internal display timing signal
using the basic clock, CL, and the frame signals, FR.
FR is used to generate the dual frame AC-drive wave-
form (type B drive) and to lock the line counter and
common timing generator to the system frame rate.
CL is used to lock the line counter to the system line scan
rate. If a system uses both SED1520s or SED1522 and
SED1521s they must have the same CL frequency rating.
LCD Driver Circuit
The LCD driver circuitry generates the 80 4-level signals
used to drive the LCD panel, using output from the
display data latch and the common timing generator
circuitry.
2–10
EPSON
SED1520 Series
Oscillator Circuit (SED1520 0A Only)
*
A low power-consumption CR oscillator for adjusting
the oscillation frequency using Rf oscillation resistor
only. This circuit generates a display timing signal.
Some of SED1520 and SED1522 series models have a
built-in oscillator and others use an external clock. This
difference must be checked before use.
Connect the Rf oscillation resistor as follows. To sup-
press the built-in oscillator circuit and drive the MPU
using an external clock, enter the clock having the same
phase as the OSC2 of mater chip into OSC2 of the slave
chip.
• MPU having a built-in oscillator
VDD
Master chip
Slave chip
M/S
M/S
(CS)
(CL)
(CS)
(CL)
OSC1
OSC2
OSC1
OSC2
VSS
Rf
Open
*2
*1
*1 If the parasitic capacitance of this section increases, the oscillation frequency may shift to the lower
frequency. Therefore, the Rf oscillation frequency must be reduced below the specified level.
*2 A CMOS buffer is required if the oscillation circuit is connected to two or more slave MPU chips.
• MPU driven with an external clock
Y driver
CL2
SED1521FAA
CL
Reset Circuit
Detects a rising or falling edge of an RES input and
initializes the MPU during power-on.
• Initialization status
1. Display is off.
2. Display start line register is set to line 1.
3. Static drive is turned off.
The input signal level at RES pin is sensed, and an
MPU interface mode is selected as shown on Table 1.
For the 80-series MPU, the RES input is passed
through the inverter and the active high reset signal
must be entered. For the 68-series MPU, the active
low reset signal must be entered.
4. Column address counter is set to address 0.
5. Page address register is set to page 3.
6. 1/32 duty (SED1520) or 1/16 duty (SED1522) is
selected.
7. Forward ADC is selected (ADC command D0 is
1 and ADC status flag is 1).
As shown for the MPU interface (reference example),
the RES pin must be connected to the Reset pin and
reset at the same time as the MPU initialization.
If the MPU is not initialized by the use of RES pin
during power-on, an unrecoverable MPU failure may
occur.
8. Read-modify-write is turned off.
When the Reset command is issued, initialization
EPSON
2–11
SED1520 Series
Column address
ADC
SEG pin
D
0
= "0"
00
01
D
0
= "1"
4F
4E
SEG 0
H
H
1
2
3
4D
4C
4B
4A
49
02
03
04
05
06
07
4
5
6
7
48
4D
4E
4F
02
01
00
77
78
79
Display area
Figure 2 Display Data RAM Addressing
2–12
EPSON
SED1520 Series
1/5 bias, 1/16 duty
1/6 bias, 1/32 duty
0
0
1
1
2
2
3
3
15
31
0
0
1
1
2
2
3
3
15
31
VDD
FR
VSS
VDD
V1
V2
V3
COM0
V4
V5
COM0
COM1
COM2
COM3
COM4
COM5
COM6
COM7
VDD
V1
V2
V3
V4
V5
COM1
COM2
VDD
V1
V2
V3
V4
V5
COM8
COM9
VDD
V1
V2
V3
V4
V5
COM10
COM11
COM12
COM13
COM14
COM15
SEG0
SEG1
VDD
V1
V2
V3
V4
V5
V5
V4
V3
V2
V1
VDD
COM0—SEG0
-V1
-V2
-V3
-V4
-V5
V5
V4
V3
V2
V1
COM0—SEG1
VDD
-V1
-V2
-V3
-V4
-V5
Figure 4 LCD drive waveforms example
EPSON
2–13
SED1520 Series
COMMANDS
Summary
Code
D5
Command
Function
Turns display on or off.
A0 RD WR
D7
D6
D4
D3 D2
D1
D0
Display On/OFF
Display start line
Set page address
0
0
0
0
1
1
1
1
0
0
0
0
1
0
1
0
1
0
1
1
1
0/1
1: ON, 0: OFF
Specifies RAM line corresponding to top line
of display.
1
1
0
1
0
Display start address (0 to 31)
Page (0 to 3)
Column address (0 to 79)
Sets display RAM page in page address
register.
1
1
0
Set column
Sets display RAM column address in
column address register.
Reads the following status:
(segment) address
BUSY
1: Busy
0: Ready
ADC
1: CW output
0: CCW output
1: Display off
0: Display on
1: Being reset
0: Normal
Read status
0
0
1
Busy ADC ON/OFF Reset
0
0
0
0
ON/OFF
RESET
Write display data
Read display data
1
1
0
0
1
0
1
1
0
1
0
0
Write data
Writes data from data bus into display RAM.
Reads data from display RAM onto data
bus.
Read data
Select ADC
Statis drive
ON/OFF
1
1
0
0
1
1
0
0
0
0
0
1
0
0
0/1
0/1
0: CW output, 1: CCW output
Selects static driving operation.
1: Static drive, 0: Normal driving
Selets LCD duty cycle
Select duty
0
1
0
1
0
1
0
1
0
0
0/1
1: 1/32, 0: 1/16
Read-Modify-Write
0
0
0
1
1
1
0
0
0
1
1
1
1
1
1
1
1
1
0
0
0
0
1
0
0
1
0
0
1
1
0
0
0
Read-modify-write ON
End
Read-modify-write OFF
Software reset
Reset
2–14
EPSON
SED1520 Series
Command Description
Table 3 is the command table. The SED1520 series identifies a data bus using a combination of A0 and R/W (RD or WR)
signals. As the MPU translates a command in the internal timing only (independent from the external clock), its speed
is very high. The busy check is usually not required.
Display ON/OFF
R/W
WR
A0
0
RD
1
D7
1
D6
0
D5
1
D4
0
D3
1
D2
1
D1
1
D0
D
0
AEH, AFH
This command turns the display on and off.
• D=1: Display ON
• D=0: Display OFF
Display Start Line
This command specifies the line address shown in Figure 3 and indicates the display line that corresponds to COM0. The
display area begins at the specified line address and continues in the line address increment direction. This area having
the number of lines of the specified display duty is displayed. If the line address is changed dynamically by this command,
the vertical smooth scrolling and paging can be used.
R/W
WR
A0
0
RD
1
D7
1
D6
1
D5
0
D4
A4
D3
A3
D2
A2
D1
A1
D0
A0
0
C0H to DFH
This command loads the display start line register.
A4 A3 A2 A1 A0 Line Address
0
0
0
0
0
0
:
0
0
0
1
0
1
:
:
1
:
31
1
1
1
1
See Figure 2.
Set Page Address
This command specifies the page address that corresponds to the low address of the display data RAM when it is accessed
by the MPU. Any bit of the display data RAM can be accessed when its page address and column address are specified.
The display status is not changed even when the page address is changed.
R/W
WR
A0
0
RD
1
D7
1
D6
0
D5
1
D4
1
D3
1
D2
0
D1
A1
D0
A0
0
B8H to BBH
This command loads the page address register.
A1 A0 Page
0
0
1
1
0
1
0
1
0
1
2
3
See Figure 2.
EPSON
2–15
SED1520 Series
Set Column Address
This command specifies a column address of the display data RAM. When the display data RAM is accessed by the MPU
continuously, the column address is incremented by 1 each time it is accessed from the set address. Therefore, the MPU
can access to data continuously. The column address stops to be incremented at address 80, and the page address is not
changed continuously.
R/W
A0
0
RD
1
WR
D7
0
D6
A6
D5
A5
D4
A4
D3
A3
D2
A2
D1
A1
D0
A0
0
00H to 4FH
This command loads the column address register.
A6 A5 A4 A3 A2 A1 A0 Column Address
0
0
0
0
0
0
0
0
:
0
0
0
0
0
1
0
1
:
:
:
1
0
0
1
1
1
1
79
Read Status
R/W
WR
A0
0
RD
0
D7
D6
D5
D4
D3
0
D2
D1
0
D0
0
1
BUSY ADC ON/OFF RESET
0
Reading the command I/O register (A0=0) yields system status information.
• The busy bit indicates whether the driver will accept a command or not.
Busy=1: The driver is currently executing a command or is resetting. No new command will be accepted.
Busy=0: The driver will accept a new command.
• The ADC bit indicates the way column addresses are assigned to segment drivers.
ADC=1: Normal. Column address n → segment driver n.
ADC=0: Inverted. Column address 79-u → segment driver u.
• The ON/OFF bit indicates the current status of the display.
It is the inverse of the polarity of the display ON/OFF command.
ON/OFF=1: Display OFF
ON/OFF=0: Display ON
• The RESET bit indicates whether the driver is executing a hardware or software reset or if it is in normal operating mode.
RESET=1: Currently executing reset command.
RESET=0: Normal operation
Write Display Data
R/W
WR
A0
1
RD
1
D7
D6
D5
D4
D3
D2
D1
D0
0
Write data
Writes 8-bits of data into the display data RAM, at a location specified by the contents of the column address and page
address registers and then increments the column address register by one.
2–16
EPSON
SED1520 Series
Read Display Data
R/W
WR
A0
1
RD
0
D7
D6
D5
D4
D3
D2
D1
D0
1
Read data
Reads 8-bits of data from the data I/O latch, updates the contents of the I/O latch with display data from the display data
RAM location specified by the contents of the column address and page address registers and then increments the column
address register.
After loading a new address into the column address register one dummy read is required before valid data is obtained.
Select ADC
R/W
WR
A0
0
RD
1
D7
1
D6
0
D5
1
D4
0
D3
0
D2
0
D1
0
D0
D
0
A0H, A1H
This command selects the relationship between display data RAM column addresses and segment drivers.
D=1: SEG0 ← column address 4FH, … (inverted)
D=0: SEG0 ← column address 00H, … (normal)
This command is provided to reduce restrictions on the placement of driver ICs and routing of traces during printed circuit
board design. See Figure 2 for a table of segments and column addresses for the two values of D.
Static Drive ON/OFF
R/W
WR
A0
0
RD
1
D7
1
D6
0
D5
1
D4
0
D3
0
D2
1
D1
0
D0
D
0
A4H, A5H
Forces display on and all common outputs to be selected.
D=1: Static drive on
D=0: Static drive off
Select Duty
R/W
WR
A0
0
RD
1
D7
1
D6
0
D5
1
D4
0
D3
1
D2
0
D1
0
D0
D
0
A8H, A9H
This command sets the duty cycle of the LCD drive and is only valid for the SED1520F and SED1522F. It is invalid for
the SED1521F which performs passive operation. The duty cycle of the SED1521F is determined by the externally
generated FR signal.
SED1520
D=1: 1/32 duty cycle
D=0: 1/16 duty cycle
SED1522
1/16 duty cycle
1/8 duty cycle
When using the SED1520F0A, SED1522F0A (having a built-in oscillator) and the SED1521F0A continuously, set the duty
as follows:
SED1521F0A
SED1520F0A
SED1522F0A
1/32
1/16
1/16
1/8
1/32
1/16
1/32
1/16
EPSON
2–17
SED1520 Series
Read-Modify-Write
R/W
WR
A0
0
RD
1
D7
1
D6
1
D5
1
D4
0
D3
0
D2
0
D1
0
D0
0
0
E0H
This command defeats column address register auto-increment after data reads. The current conetents of the column
address register are saved. This mode remains active until an End command is received.
• Operation sequence during cursor display
When the End command is entered, the column address is returned to the one used during input of Read-Modify-Write
command. This function can reduce the load of MPU when data change is repeated at a specific display area (such as cursor
blinking).
* Any command other than Data Read or Write can be used in the Read-Modify-Write mode. However, the Column
Address Set command cannot be used.
Set Page Address
Set Column Address
Read-Modify-Write
Dummy Read
Read Data
Write Data
No
Completed?
Yes
End
End
R/W
WR
A0
0
RD
1
D7
1
D6
1
D5
1
D4
0
D3
1
D2
1
D1
1
D0
0
0
EEH
This command cancels read-modify-write mode and restores the contents of the column address register to their value prior
to the receipt of the Read-Modify-Write command.
Return
Column address
N
N+1
N+2
N+3
N+m
N
Read-Modify-Write mode is selected.
End
2–18
EPSON
SED1520 Series
Reset
R/W
WR
A0
0
RD
1
D7
1
D6
1
D5
1
D4
0
D3
0
D2
0
D1
1
D0
0
0
E2H
This command clears
• the display start line register.
• and set page address register to 3 page.
It does not affect the contents of the display data RAM.
When the power supply is turned on, a Reset signal is entered in the RES pin. The Reset command cannot be used instead
of this Reset signal.
Power Save (Combination command)
The Power Save mode is selected if the static drive is turned ON when the display is OFF. The current consumption can
be reduced to almost the static current level. In the Power Save mode:
(a) The LCD drive is stopped, and the segment and common driver outputs are set to the VDD level.
(b) The external oscillation clock input is inhibited, and the OSC2 is set to the floating mode.
(c) The display and operation modes are kept.
The Power Save mode is released when the display is turned ON or when the static drive is turned OFF. If the LCD drive
voltage is supplied from an external resistance divider circuit, the current passing through this resistor must be cut by the
Power Save signal.
VDD
VDD
V1
V2
SED1520
SED1522
V3
V4
V5
Power Save signal
VSSH
If the LCD drive power is generated by resistance division, the resistance and capacitance are determined by the LCD panel
size. After the panel size has been determined, reduce the resistance to the level where the display quality is not affected
and reduce the power consumption using the divider resistor.
EPSON
2–19
SED1520 Series
SPECIFICATIONS
Absolute Maximum Ratings
Parameter
Supply voltage (1)
Symbol
Rating
–8.0 to +0.3
–16.5 to +0.3
V5 to +0.3
VSS–0.3 to +0.3
VSS–0.3 to +0.3
250
Unit
VSS
V
Supply voltage (2)
V5
V
Supply voltage (3)
V1, V4, V2, V3
V
V
Input voltage
VIN
VO
Output voltage
V
Power dissipation
PD
mW
Operating temperature
Storage temperature
Soldering temperature time at lead
Topr
Tstg
Tsol
–40 to +85
–65 to +150
260, 10
deg. C
deg. C
deg. C, sec
Notes: 1. All voltages are specified relative to VDD = 0 V.
2. The following relation must be always hold
VDD ≥ V1 ≥ V2 ≥ V3 ≥ V4 ≥ V5
3. Exceeding the absolute maximum ratings may cause permanent damage to the device. Functional
operation under these conditions is not implied.
4. Moisture resistance of flat packages can be reduced by the soldering process, so care should be taken to
avoid thermally stressing the package during board assembly.
Electrical Specifications
DC Characteristics
Ta = –20 to 75 deg. C, VDD = 0 V unless stated otherwise
Rating
Typ.
Parameter
Symbol
VSS
Condition
Unit Applicable Pin
Min.
Max.
Operating Recommended
voltage (1)
See note 1. Allowable
–5.5
–5.0
—
–4.5
V
VSS
–7.0
–2.4
Recommended
Operating Allowable
voltage (2) Allowable
Allowable
–13.0
–13.0
0.6×V5
V5
VSS+2.0
0.2×VSS
0.2×VSS
0.2×VSS
VSS
VSS
VSS
VSS
VSS+2.4
VSS+2.4
0.2×VSS
—
—
—
—
—
—
—
—
–3.5
—
VDD
0.4×V5
VDD
VDD
V5
V5
V
See note 10.
V1, V2
V3, V4
V1, V2
V3, V4
VIHT
VIHC
VIHT
VIHC
VILT
VILC
VILT
VILC
VOHT IOH = –3.0 mA
VOHC1 IOH = –2.0 mA
VOHC2 IOH = –120 µA
VOHT VSS = –3 V
VOHC1 VSS = –3 V
VOHC2 VSS = –3 V
V
V
See note 2 & 3.
See note 2 & 3.
See note 2 & 3.
See note 2 & 3.
High-level input voltage
Low-level input voltage
VSS = –3 V
VSS = –3 V
VDD
VDD
V
VSS+0.8
0.8×VSS
0.85×VSS
0.8×VSS
—
VSS = –3 V
VSS = –3 V
—
—
—
OSC2
See note 4 & 5.
—
—
V
V
High-level output voltage
IOH = –2 mA 0.2×VSS
IOH = –2 mA 0.2×VSS
IOH = –50 µA 0.2×VSS
See note 4 & 5.
OSC2
(continued)
2–20
EPSON
SED1520 Series
DC Characteristics (Cont’d)
Ta = –20 to 75 deg. C, VDD = 0 V unless stated otherwise
Rating
Typ.
—
—
—
Parameter
Symbol
Condition
Unit Applicable Pin
Min.
—
—
Max.
VSS+0.4
VSS+0.4
0.8×VSS
0.8×VSS
0.8×VSS
0.8×VSS
1.0
VOLT IOL = 3.0 mA
VOLC1 IOL = 2.0 mA
VOLC2 IOL = 120 µA
VOLT VSS = –3 V
VOLC1 VSS = –3 V
VOLC2 VSS = –3 V
ILI
OSC2
V
See note 4 & 5.
—
Low-level output voltage
IOL = 2 mA
IOL = 2 mA
IOL = 50 µA
See note 4 & 5.
OSC2
V
Input leakage current
Output leakage current
–1.0
–3.0
—
—
µA See note 6.
µA See note 7.
ILO
3.0
V5 = –5.0 V
V5 = –3.5 V
—
—
5.0
7.5
SEG0 to 79,
kΩ COM0 to 15,
See note 11
LCD driver ON resistance
Static current dissipation
RON
IDDQ
Ta = 25 deg. C
10.0
50.0
CS = CL = VDD
—
—
—
—
0.05
2.0
9.5
5.0
1.0
5.0
15.0
10.0
µA VDD
VDD
µA See note 12,
13 & 14.
fCL = 2 kHz
Rf = 1 MΩ
fCL = 18 kHz
During display
V5 = –5.0 V
IDD (1)
During display fCL = 2 kHz
V5 = –5 V
1.5
4.5
VDD
µA
Dynamic current dissipation
See note 12 & 13.
VSS = –3 V
During access tcyc = 200 kHz
IDD (2) VSS = –3V,
During access tcyc = 200 kHz
Rf = 1 MΩ
6.0
300
150
5.0
18
12.0
500
300
8.0
—
µA See note 8.
Input pin capacitance
Oscillation frequency
CIN
Ta = 25 deg. C, f = 1 MHz
Rf = 1.0 MΩ ±2%,
VSS = –5.0 V
Rf = 1.0 MΩ ±2%,
VSS = –3.0 V
—
pF All input pins
15
21
fOSC
kHz See note 9.
11
16
—
21
RES
µS
Reset time
tR
1.0
See note 15.
Notes: 1. Operation over the specified voltage range is guaranteed, except where the supply voltage changes
suddenly during CPU access.
2. A0, D0 to D7, E (or RD), R/W (or WR) and CS
3. CL, FR, M/S and RES
4. D0 to D7
5. FR
6. A0, E (or RD), R/W (or WR), CS, CL, M/S and RES
7. When D0 to D7 and FR are high impedance.
8. During continual write acess at a frequency of tcyc. Current consumption during access is effectively
proportional to the access frequency.
9. See figure below for details
10. See figure below for details
11. For a voltage differential of 0.1 V between input (V1, …, V4) and output (COM, SEG) pins. All voltages
within specified operating voltage range.
12. SED1520
A
and SED1521
A
and SED1522
A
only. Does not include transient currents due to
* *
* *
* *
stray and panel capacitances.
SED1520* * and SED1522* *
13.
0
0
only. Does not include transient currents due to stray and panel
capacitances.
14. SED1521
0
only. Does not include transient currents due to stray and panel capacitances.
* *
15. tR (Reset time) represents the time from the RES signal edge to the completion of reset of the internal
circuit. Therefore, the SED1520 series enters the normal operation status after this tR.
EPSON
2–21
SED1520 Series
Relationship between fOSC, fFR and Rf, and operating bounds on VSS and V5
*9 • Relationship between oscillation frequency, frames and Rf
(SED1520F0A), (SED1522F0A)
OSC1
Rf
OSC2
Same for 1/16 and 1/32 duties
Ta=25°C VSS =-5V
Ta=25°C VSS =-5V
40
30
200
100
VSS =-5V
SED1522
20
10
VSS =-3V
SED1520
0.5
0
1.0
Rf
1.5
2.0
2.5
0
0.5
1.0
Rf
1.5
[MΩ]
2.0
2.5
[MΩ]
Figure 5 (a)
Figure 5 (b)
• Relationship between external clocks (fCL) and frames
(SED1520FAA) , (SED1522FAA)
duty1/32
duty1/16
duty1/8
200
100
0
1
2
3
f CL
[kHz]
Figure 5 (c)
*10 • Operating voltage range of VSS and V5 systems
–15
–10
–5
Operating voltage
range
0
–2
–4
–6
(V)
–8
VSS
Figure 6
2–22
EPSON
SED1520 Series
AC Characteristics
• MPU Bus Read/Write I (80-family MPU)
A0,CS
t
AW8
t
CC
t
AH8
WR,RD
t
r
t
CYC8
t
f
t
DH8
t
DS8
D0 to D7
(WRITE)
t
OH8
t
ACC8
D0 to D7
(READ)
Ta = –20 to 75 deg. C, VSS = –5.0 V ±10% unless stated otherwise
Rating
Parameter
Symbol
Condition
Unit
Signal
A0, CS
WR, RD
Min.
10
Max.
—
Address hold time
Address setup time
System cycle time
Control pulsewidth
Data setup time
Data hold time
RD access time
Output disable time
Rise and fall time
tAH8
tAW8
tCYC8
tCC
ns
ns
ns
ns
ns
ns
ns
ns
ns
20
—
—
—
—
1000
200
80
tDS8
tDH8
tACC8
tCH8
tr, tf
10
—
10
—
—
D0 to D7
—
90
60
15
CL = 100 pF
—
(VSS = –2.7 to –4.5 V, Ta = –20 to +75°C)
Rating
Parameter
Symbol
Condition
Unit
Signal
A0, CS
WR, RD
Min.
20
Max.
—
Address hold time
Address setup time
System cycle time
Control pulse width
Data setup time
Data hold time
RD access time
Output disable time
Rise and fall time
tAH8
tAW8
tCYC8
tCC
ns
ns
ns
ns
ns
ns
ns
ns
ns
—
—
—
40
—
—
—
—
2000
400
160
20
tDS8
tDH8
tACC8
tCH8
tr, tf
—
D0 to D7
—
—
20
—
180
120
15
CL = 100 pF
—
EPSON
2–23
SED1520 Series
• MPU Bus Read/Write II (68-family MPU)
t
CYC6
E
t
EW
t
r
t
f
t
AW6
t
DS6
R/W
t
t
t
AH6
DH6
OH6
A0,CS
D0 to D7
(WRITE)
t
ACC6
D0 to D7
(READ)
Ta = –20 to 75 deg. C, VSS = –5 V ±10 unless stated otherwise
Rating
Parameter
Symbol
Condition
Unit
Signal
Min.
1000
20
Max.
—
System cycle time
Address setup time
Address hold time
Data setup time
Data hold time
tCYC6
tAW6
tAH6
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
—
—
—
—
60
90
—
—
15
A0, CS, R/W
10
80
10
10
tDS6
tDH6
tOH6
tACC6
D0 to D7
Output disable time
Access time
CL = 100 pF
—
Enable
pulsewidth
Read
Write
100
80
tEW
E
Rise and fall time
tr, tf
—
—
—
(VSS = –2.7 to – 4.5 V, Ta = –20 to +75°C)
Rating
Parameter
Symbol
Condition
Unit
Signal
Min.
2000
40
Max.
—
System cycle time*1
Address setup time
Address hold time
Data setup time
Data hold time
tCYC6
tAW6
tAH6
—
—
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
—
—
—
—
A0, CS, R/W
20
tDS6
160
20
—
tDH6
tOH6
tACC6
D0 to D7
Output disable time
Access time
20
—
120
180
—
CL = 100 pF
Enable
pulse width
Read
Write
200
160
—
tEW
tr, tf
—
—
E
—
15
Rise and fall time
—
Notes: 1. tCYC6 is the cycle time of CS. E = H, not the cycle time of E.
2–24
EPSON
SED1520 Series
• Display Control Signal Timing
t f
t r
CL
t
WLCL
t
WHCL
t
DFR
FR
Input
Ta = –20 to 75 deg. C, VSS = –5.0 V ±10% unless stated otherwise
Rating
Typ.
—
—
30
Parameter
Symbol
Condition
Unit
Signal
Min.
35
35
—
—
Max.
—
—
150
150
2.0
Low-level pulsewidth
High-level pulsewidth
Rise time
Fall time
FR delay time
tWLCL
tWHCL
tr
µs
µs
ns
ns
µs
CL
FR
tf
30
0.2
tDFR
–2.0
VSS = –2.7 to –4.5 V, Ta = –20 to +75°C
Rating
Typ.
—
—
60
Parameter
Symbol
Condition
Unit
Signal
Min.
70
70
—
—
Max.
—
—
300
300
4.0
Low-level pulse width
High-level pulse width
Rise time
Fall time
FR delay time
tWLCL
tWHCL
tr
—
—
—
—
—
µs
µs
ns
ns
µs
CL
FR
tf
60
0.4
tDFR
–4.0
Note: The listed input tDFR applies to the SED1520 and SED1521 and SED1522 in slave mode.
Output
Ta = –20 to 75 deg. C, VSS = –5.0 V ±10% unless stated otherwise
Rating
Typ.
Parameter
Symbol
Condition
Unit
Signal
Min.
Max.
FR delay time
tDFR
CL = 100 pF
—
0.2
0.4
µs
FR
VSS = –2.7 to –4.5 V, Ta = –20 to +75°C
Rating
Typ.
0.4
Parameter
Symbol
Condition
Unit
Signal
Min.
—
Max.
0.8
FR delay time
tDFR
CL = 100 pF
µs
FR
Notes: 1. The listed output tDFR applies to the SED1520 and SED1522 in master mode.
EPSON
2–25
SED1520 Series
APPLICATION NOTES
MPU Interface Configuration
80 Family MPU
VCC
A0
VDD
A0
A1 to A7
Decoder
CS
IOQR
MPU
SED1520FAA
D0 to D7
RD
D0 to D7
RD
WR
WR
RES
GND
RES
VSS
V5
RESET
2–26
EPSON
SED1520 Series
LCD Drive Interface Configuration
SED1520F0A–SED1520F0A
SED1522F0A–SED1522F0A
To LCD SEG
To LCD SEG
To LCD COM
SED1520F0A
To LCD COM
SED1520F0A
Slave
VDD
Master
M/S
M/S
FR
VSS
OSC1
OSC2
FR
OSC1
OSC2
Rf
SED1520FAA–SED1520FAA
SED1522FAA–SED1522FAA
To LCD SEG
To LCD SEG
To LCD COM
To LCD COM
SED1520FAA
Master
SED1520FAA
Slave
VDD
M/S
M/S
FR
VSS
CL
FR
CL
External clock
SED1520F0A
SED1522F0A
)–SED1521F0A (See note 1)
To LCD SEG
To LCD SEG
To LCD COM
SED1520F0A
SED1521F0A
Slave
Master
OSC2
VDD
M/S
OSC1
FR
OSC1
OSC2
FR
Rf
*2
EPSON
2–27
SED1520 Series
SED1520FAA–SED1521FAA
To LCD SEG
SED1520FAA
To LCD SEG
SED1521FAA
To LCD COM
VDD
M/S
CL
FR
CL
FR
External clock
Notes: 1. The duty cycle of the slave must be the same as that for the master.
2. If a system has two or more slave drivers a CMOS buffer will be required.
2–28
EPSON
SED1520 Series
LCD Panel Wiring Example (The full-dot LCD panel displays a character in 6×8 dots.)
1/16 duty:
• 10 characters × 2 lines
1
LCD 16×61
16
1
61
SEG
SED1520F
COM
1/16 duty:
• 23 characters × 2 lines
1
LCD 16×141
1
61
62
141
16
SEG
SEG
SED1520F
SED1521F
COM
1/32 duty:
• 33 characters × 4 lines
1
LCD 32×202
17
32
16
1
61 62
141 142
202
SEG
SEG
SEG
SED1520F
SED1521F
*
SED1520F
COM
COM
* The SED1521F can be omitted (the 32×122-dot display mode is selected).
Note: A combination of AB or AA type chip (that uses internal clocks) and 0B or 0A type chip (that uses external
clocks) is NOT allowed.
EPSON
2–29
SED1520 Series
Package Dimensions
• Plastic QFP5–100 pin
Dimensions: inches (mm)
± 0.016
1.008
(25.6
± 0.4
)
± 0.004
± 0.1
)
0.787
(20
80
51
81
50
Index
100
31
± 0.004
0.026
(0.65
1
30
± 0.1
)
± 0.004
0.012
(0.30
± 0.1
)
0~12°
0.110
(2.8)
• Plastic QFP15–100 pin
± 0.016
± 0.4
)
0.630
(16.0
(14.0
± 0.004
± 0.1
)
0.551
75
51
76
50
Index
100
26
1
25
± 0.004
± 0.004
0.020
(0.5
0.007
(0.18
± 0.1
± 0.1
)
)
0~12°
± 0.004
± 0.2
)
0.020
(0.5
0.039(1.0)
2–30
EPSON
SED1520 Series
( M o l d , m a r k i n g a r e a )
EPSON
2–31
|