Rohm BU97981KV-E2 Multi-function lcd segment driver Datasheet

Datasheet
Multi-function LCD Segment Drivers
BU97981xxx Series MAX 196 Segments (SEG49xCOM4)
Features
 Integrated RAM for Display Data (DDRAM):
49 x4 Bit (Max 196 Segment)
 LCD Drive Output:
4 Common Output, Max 49 Segment Output
 Integrated 3ch LED Driver Circuit
 Segment/ LED (Max 3port) Output Mode Selectable
 Segment/ GPO (Max 31port) Output Mode
Selectable
 Support PWM Generation from Ext. or Internal
Clock
(Resolution: 8bit Mode/12bit Mode Selectable)
 Support Standby Mode
 Integrated Power-on-Reset Circuit (POR)
 Integrated Oscillator Circuit
 No External Component
 Low Power Consumption Design
 Independent Power Supply for LCD Driving
 Support Blink Function
(Blink Frequency 1.6, 2.0, 2.6, 4.0Hz selectable)
Key Specifications
■ Supply Voltage Range:
+1.8V to +3.6V
■ LCD Drive Power Supply Range:
+3.3V to +5.5V
■ Operating Temperature Range:
-30°C to +75°C
■ Max Segments:
BU97981KV
196 Segments
BU97981MUV
168 Segments
BU97981GU
196 Segments
■ Max GPO Outputs:
BU97981KV
31port
BU97981MUV
27port
BU97981GU
31port
■ Max LED Drive Outputs:
BU97981KV
3port
BU97981MUV
3port
BU97981GU
3port
■ Display Duty:
Static. 1/3, 1/4 Selectable
■ Bias:
Static, 1/3
■ Integrated Regulator for LCD Drive:
3.2, 3.3, 3.4, 4.4, 4.5, 4.6, 5.0V Selectable
■ Interface:
3wire Serial Interface
Applications

Telephone

FAX

Portable Equipment (POS, ECR, PDA etc.)

DSC

DVC

Car audio

Home Electrical Appliance

Meter Equipment
etc.
Typical Application Circuit
BU97981KV
LED/GPO using case
LED : 3port
GPO : 5port
LCD :164seg
VLED
*Reading resistor value
Please detect the value according to
inpu curremt value.
(cuurent MAX = 20mA)
VLCD
SEG48 (LED1)
SEG47 (LED2)
SEG46 (LED3)
VDD
BU97981KV
5.0V
SEG45(GPO1) to
SEG41(GPO5)
3.3V
VSS1
VSS2
TEST1 CSB SCL SD
Other
device
SEG0 to SEG40
INHb CLKIN
Input signal from cintroller
COM0 to COM3
LCD
＊CLKIN
Extenal CLK input terminal
In case being unused, connect to
VSS or be opened.
Figure 1. Typical Application Circuit
○Product structure：Silicon monolithic integrated circuit
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© 2012 ROHM Co., Ltd. All rights reserved.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Block Diagram / Pin Arrangement / Pin Description
SEG20
SEG21
SEG22
SEG23
SEG24
SEG25
SEG26
SEG27
SEG28
SEG29
SEG30
SEG31
SEG32
SEG33
SEG35
COM0……COM3 SEG0 ……………………………… SEG48
VSS2
SEG34
BU97981KV
common
driver
Segment
driver
Segment
Segment
driver/GPO driver/LED
49
Ref Voltage
Circuit
Vreg
GPO/LED
Controller
LCD
BIAS
SELECTOR
common
counter
blink timing
generator
DDRAM
GPO data latch
PWM
Generator
VSS
INHb
CLKIN
33
LCD voltage
Generator
48
VLCD
Command register
Data Decoder
OSCILLATOR
Power On Reset
32
SEG36
SEG19
SEG37
SEG18
SEG38
SEG17
SEG39
SEG16
SEG40
SEG15
SEG41
SEG14
SEG42
SEG13
SEG43
SEG12
SEG44
SEG11
SEG45
SEG10
SEG46
SEG9
SEG47
SEG8
SEG48
SEG7
VSS2
SEG6
PWMOUT
serial inter face
SEG5
CLKIN
SD
SCL
PWMOUT
Figure 2. Block Diagram
SEG3
SEG2
SEG1
SEG0
COM3
COM2
COM1
COM0
VLCD
INHb
VSS1
VDD
TEST1
CSB
SD
TEST1
SCL
CSB
1
IF FILTER
VSS
17
16
VDD
SEG4
64
Output
Controller
Figure 3. Pin Configuration (TOP VIEW)
Table 1. Pin Description
Terminal
Terminal
number
I/O
Unused case
CSB
1
I
-
Chip select: "L" active
SCL
2
I
-
Serial data transfer clock
Function
SD
3
I
-
Input serial data
VDD
4
-
-
CLKIN
64
I
OPEN / VSS
TEST1
5
I
-
Power supply for LOGIC
External clock input terminal (for display/PWM using selectable)
Support Hi-Z input mode at internal clock mode
TEST terminal (Please connect VSS terminal)
VSS1
6
-
-
GND
VLCD
8
-
-
Power supply for LCD
Display turning on/off select terminal
H: turning on display, L: turning off display
INHb
7
I
VDD
INHb = “L”: All SEG/COM terminal : output VSS level
GPO terminal : output VSS level
LED drive terminal : output Hi-Z
PWMOUT
63
O
OPEN
PWM output for LED2 group
COM0 to 3
9 to 12
O
OPEN
COMMON output for LCD
SEG0 to 14
13 to 27
O
OPEN
SEGMENT output for LCD
SEG15 to 45
28 to 58
O
OPEN
SEGMENT output for LCD/GPO
SEG46 to 48
59 to 61
O
OPEN
SEGMENT output for LCD/LED driver
VSS2
62
-
GND
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GND (for SEG46-48 / LED driver)
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TSZ02201-0A2A0D300110-1-2
10.Apr.2015 Rev.006
BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Block Diagram / Pin Arrangement / Pin Description
DDRAM
GPO data latch
Blink timing
generator
Common
counter
PWM
Generator
VSS
INHb
Clock
Divider
(div.2)
CR oscillator
(typ:40.96KHz)
CLKIN
Command register
Data Decode
Power On
Reset
Serial inter face
OSC block
VDD
Output
Controller
IF FILTER
SCL
COM1
COM2
COM3
SEG0
10 11 12
13 14
SEG1
COM0
9
16
SEG3
54
17
SEG4
SEG2
SEG40
53
18
SEG5
SEG39
SEG38
SEG37
52
19
51
20
SEG6
SEG7
SEG8
SEG36
SEG35
49
22
48
23
SEG34
SEG33
SEG32
47
24
46
25
EXT-PAD
50
21
SEG9
SEG10
45
26
SEG11
SEG12
SEG13
SEG31
44
27
SEG14
SEG30
43
28
SEG15
PWMOUT
Figure 4. Block Diagram
8
15
41
40
SEG29
SEG28
SEG27
SD
7
55
42
CSB
6
5
VSS2
SEG41
VSS
TEST1
4
39
38
37
36 35
34
33 32
31 30
29
SEG16
LCD
BIAS
SELECTOR
3
56
SEG21
SEG20
SEG19
SEG18
SEG17
GPO / LED
Controller
2
VSS1
INHb
VLCD
1
CLKIN
SEG23
SEG22
Vreg
Segment
Driver/ LED
SEG25
SEG24
Segment
Driver/ GPO
SEG26
Ref Voltage
Circuit
Segment
Driver
Common
Driver
LCD voltage
Generator
VDD
TEST1
COM0 ….COM3 SEG0 …………………………….SEG48
COM0……COM
3
CSB
SCL
VSS2
VLCD
SD
BU97981MUV
Figure 5. Pin Configuration (BOTTOM VIEW)
Table 2. Pin Description
CSB
Terminal
number
1
SCL
2
Terminal
I/O
Unused case
Function
I
-
Chip select: "L" active
I
-
Serial data transfer clock
SD
3
I
-
Input serial data
VDD
4
-
-
CLKIN
56
I
OPEN / VSS
TEST1
5
I
-
Power supply for LOGIC
External clock input terminal (for display/PWM using selectable)
Support Hi-Z input mode at internal clock mode
TEST terminal (Please connect VSS terminal)
VSS1
6
-
-
GND
VLCD
8
-
-
Power supply for LCD
Display turning on/off select terminal
H: turning on display, L: turning off display
INHb
7
I
VDD
INHb = “L”: All SEG/COM terminal : output VSS level
GPO terminal : output VSS level
LED drive terminal : output Hi-Z
COM0~3
9-12
O
OPEN
COMMON output for LCD
SEG0~11
13-24
O
OPEN
SEGMENT output for LCD
SEG12~38
25-51
O
OPEN
SEGMENT output for LCD/GPO
SEG39~41
52-54
O
OPEN
SEGMENT output for LCD/LED driver
VSS2
55
-
GND
GND (for SEG39-41 / LED driver)
(Note1)
EXT-PAD
VSS
substrate
(Note1) To radiate heat, please contact a board with the EXT-PAD which is located at the bottom side of
VQFN56AV8080 package.
Please supply VSS level or Open state as the input condition for this PAD.
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TSZ02201-0A2A0D300110-1-2
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Block Diagram / Pin Arrangement / Pin Description
BU97981GU
COM0……COM3 SEG0 ……………………………… SEG48
VSS2
1
2
H
SEG4
SEG5
SEG9 SEG11 SEG14 SEG16 SEG18 SEG20
G
SEG2
SEG3
SEG7
F
SEG0
SEG1
SEG6 SEG10 SEG13 SEG22 SEG23 SEG25
E
COM2 COM0 COM1 COM3 SEG15 SEG26 SEG24 SEG27
D
VLCD
VDD
INHB SEG47 SEG31 SEG29 SEG28 SEG30
C
VSS1
SDA
SCL
B
(NC)
CLKIN
A
CSB
VLCD
LCD voltage
Generator
common
driver
Segment
driver
Segment
Segment
driver/GPO driver/LED
3
4
5
6
7
8
Ref Voltage
Circuit
Vreg
GPO/LED
Controller
LCD
BIAS
SELECTOR
common
counter
blink timing
generator
DDRAM
GPO data latch
SEG8 SEG12 SEG17 SEG19 SEG21
PWM
Generator
VSS
INHb
CLKIN
Command register
Data Decoder
OSCILLATOR
Power On Reset
SEG45 SEG42 SEG38 SEG33 SEG32
serial inter face
Output
Controller
VDD
VSS2 SEG44 SEG40 SEG39 SEG35 SEG34
IF FILTER
VSS
CSB
SD
SCL
PWMOUT
Figure 6. Block Diagram
PWM
OUT
SEG48 SEG46 SEG43 SEG41 SEG37 SEG36
Figure 7. Pin Configuration (TOP VIEW)
Table 3. Pin Description
Terminal
I/O
Unused case
Function
CSB
I
-
Chip select: "L" active
SCL
I
-
Serial data transfer clock
SD
I
-
Input serial data
VDD
-
-
Power supply for LOGIC
CLKIN
I
OPEN / VSS
VSS1
-
-
GND
VLCD
-
-
Power supply for LCD
External clock input terminal (for display/PWM using selectable)
Support Hi-Z input mode at internal clock mode
Display turning on/off select terminal
H: turning on display, L: turning off display
INHb
I
VDD
INHb = “L”: All SEG/COM terminal : output VSS level
GPO terminal : output VSS level
LED drive terminal : output Hi-Z
PWMOUT
O
OPEN
PWM output for LED2 group
COM0 to 3
O
OPEN
COMMON output for LCD
SEG0 to 14
O
OPEN
SEGMENT output for LCD
SEG15 to 45
O
OPEN
SEGMENT output for LCD/GPO
SEG46 to 48
O
OPEN
SEGMENT output for LCD/LED driver
VSS2
-
GND
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GND (for SEG46-48 / LED driver)
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Absolute Maximum Ratings (VSS=0V)
Parameter
Symbol
Ratings
Unit
Power Supply Voltage 1
VDD
-0.3 to +4.5
V
Power supply
Power Supply Voltage 2
VLCD
-0.5 to +7.0
V
Power supply for LCD
Power Dissipation
Pd
Input Voltage Range
VIN
Operational Temperature Range
Storage Temperature Range
Output Current
1.0
(Note1)
3.6
(Note2)
0.8
(Note3)
Remarks
BU97981KV
W
BU97981MUV
BU97981GU
-0.5 to VDD+0.5
V
Topr
-30 to +75
°C
Tstg
-55 to +125
°C
Iout1
5
mA
SEG output
Iout2
5
mA
COM output
Iout3
10
mA
GPO output
Iout4
50
mA
LED output
(Note1) When use more than Ta=25°C, subtract 10mW per degree. (using ROHM standard board)
(board size：70mm×70mm×1.6mm material: FR4 board copper foil: land pattern only).
(Note2) When use more than Ta=25°C, subtract 36mW per degree. (using ROHM standard board)
(board size：74.2mm×74.2mm×1.6mm SEMI standard 4 layer board)
(Note3) When operated higher than Ta=25°C, subtract 8.0mW per degree. (using ROHM standard board)
(board size：114.3mm×76.2mm×1.6mm)
Caution: Operating the IC over the absolute maximum ratings may damage the IC. The damage can either be a short circuit between pins or an open circuit
between pins and the internal circuitry. Therefore, it is important to consider circuit protection measures, such as adding a fuse, in case the IC is operated over
the absolute maximum ratings.
Recommended Operating Conditions (Ta=-30°C to +75°C,VSS=0V)
Parameter
Symbol
Power Supply Voltage 1
Ratings
Unit
Remarks
Min
Typ
Max
VDD
1.8
-
3.6
V
Power supply
Power Supply Voltage 2
VLCD
3.3
-
5.5
V
Power supply for LCD
LED Supply Voltage
VLED
1.0
-
VLCD
V
Power supply for LED
Iout4
-
-
20
mA Per LED port 1ch
Iout4
-
-
60
mA Total LED port current
Output Current
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TSZ02201-0A2A0D300110-1-2
10.Apr.2015 Rev.006
BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Electrical Characteristics
DC characteristics (Ta=-30°C to +75°C, VDD=1.8V to 3.6V, VLCD=3.3V to 5.5V, VSS=0)
(BU97981KV,BU97981GU)
Limits
Parameter
Symbol
Unit
Min
Typ
Max
Conditions
“H” level Input Voltage
VIH
0.8VDD
-
VDD
V
SD, SCL, CSB, TEST1
(Note4)
,CLKIN, INHb
“L” level Input Voltage
VIL
VSS
-
0.2VDD
V
SD, SCL, CSB, TEST1
(Note4)
,CLKIN, INHb
Hysteresis Width
VH
-
0.2
-
V
“H” Level Input Current
IIH1
-
-
5
µA
“L” Level Input Current
IIL1
-5
-
-
µA
VOH1
VLCD
-0.4
-
-
V
VOH2
VLCD
-0.4
-
-
V
VOH3
VLCD
-0.6
-
-
V
SCL, INHb, VDD=3.3V, Ta=25°C
SD, SCL, CSB, CLKIN, INHb,
VI=3.6V
(Note4)
SD, SCL, CSB, CLKIN, INHb, TEST1
,
VI=0V
Iload=-50µA, VLCD=5.0V
SEG0 to SEG48,
Unused integrated regulator
Iload=-50µA, VLCD=5.0V,
COM0 to COM3,
Unused integrated regulator
Iload=-1mA,VLCD=5.0V,
SEG15 to SEG45 (GPO mode)
Unused integrated regulator
-
-
V
Iload=-1mA, VDD=3.0V, PWMOUT
-
0.4
V
Iload= 50µA, VLCD=5.0V, SEG0 to SEG48
Iload= 50µA, VLCD=5.0V, COM0 to COM3
Iload=1mA, VLCD=5.0V,
SEG15 to SEG45 (GPO mode), PWMOUT
Iload=20mA, VLCD=5.0V,
SEG46 to 48 (LED drive mode)
Input terminal ALL‟L‟,
Display off, Oscillation off
Input terminal ALL‟L‟,
Display off, Oscillation off
°
VDD=3.3V, Ta=25 C, 1/3bias, fFR=64Hz,
PWM generate off,
All output pin open
°
VDD=3.3V, Ta=25 C, 1/3bias, fFR=64Hz,
PWM Frequency=500Hz setting,
All output pin open
°
VLCD=5.0V, Ta=25 C, 1/3bias, fFR=64Hz,
Unused Integrated regulator,
LED generate off,
All output pin open
°
VLCD=5.0V, Ta=25 C, 1/3bias, fFR=64Hz,
Used Integrated regulator,
LED generate off,
All output pin open
°
VLCD=5.0V, Ta=25 C,1/3bias, fFR=64Hz,
Used Integrated regulator,
PWM Frequency=500Hz setting,
All output pin open
“H” Level Output Voltage
(Note1&3)
VOL1
VDD
-0.6
-
VOL2
-
-
0.4
V
VOL3
-
-
0.5
V
VOL4
-
0.11
0.5
V
IstVDD
-
3
10
µA
IstVLCD
-
0.5
5
µA
IVDD1
-
8
15
µA
IVDD2
-
90
130
µA
IVLCD1
-
10
15
µA
IVLCD2
-
25
40
µA
IVLCD3
-
30
48
µA
VOH4
“L” Level Output Voltage
Current Consumption
(Note3)
(Note2)
(Note1) Integrated regulator using case, please add load regulation value to output voltage listed above.
(Note2) Power save mode 1 and frame inversion setting
(Note3) Iload: In case, load current from only one port
(Note4) There is not TEST1 port in BU97981GU
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TSZ02201-0A2A0D300110-1-2
10.Apr.2015 Rev.006
BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Electrical Characteristics – Continued
DC characteristics (Ta=-30°C to +75°C, VDD=1.8V to 3.6V, VLCD=3.3V to 5.5V, VSS=0)
(BU97981MUV)
Limits
Parameter
Symbol
Unit
Min
Typ
Max
Conditions
“H” level Input Voltage
VIH
0.8VDD
-
VDD
V
SD, SCL, CSB, TEST1,CLKIN, INHb
“L” level Input Voltage
VIL
VSS
-
0.2VDD
V
SD, SCL, CSB, TEST1,CLKIN, INHb
Hysteresis Width
VH
-
0.2
-
V
“H” level Input Current
IIH1
-
-
5
µA
“L” level Input Current
IIL1
-5
-
-
µA
VOH1
VLCD
-0.4
-
-
V
VOH2
VLCD
-0.4
-
-
V
VOH3
VLCD
-0.6
-
-
V
VOL1
-
-
0.4
V
SCL, INHb, VDD=3.3V, Ta=25°C
SD, SCL, CSB, CLKIN, INHb,
VI=3.6V
SD, SCL, CSB, CLKIN, INHb, TEST1,
VI=0V
Iload=-50µA, VLCD=5.0V
SEG0 to SEG41,
Unused integrated regulator
Iload=-50µA, VLCD=5.0V,
COM0 to COM3,
Unused integrated regulator
Iload=-1mA,VLCD=5.0V,
SEG12 to SEG38 (GPO mode)
Unused integrated regulator
Iload= 50µA, VLCD=5.0V, SEG0 to SEG41
VOL2
-
-
0.4
V
VOL3
-
-
0.5
V
VOL4
-
0.11
0.5
V
IstVDD
-
3
10
µA
IstVLCD
-
0.5
5
µA
IVDD1
-
8
15
µA
IVDD2
-
90
130
µA
IVLCD1
-
10
15
µA
IVLCD2
-
25
40
µA
IVLCD3
-
30
48
µA
“H” Level Output Voltage
(Note1&3)
“L” Level Output Voltage
Current Consumption
(Note3)
(Note2)
Iload= 50µA, VLCD=5.0V, COM0 to COM3
Iload=1mA, VLCD=5.0V,
SEG12 to SEG38 (GPO mode), PWMOUT
Iload=20mA, VLCD=5.0V,
SEG39 to SEG41 (LED drive mode)
Input terminal ALL‟L‟,
Display off, Oscillation off
Input terminal ALL‟L‟,
Display off, Oscillation off
°
VDD=3.3V, Ta=25 C, 1/3bias, fFR=64Hz,
PWM generate off,
All output pin open
°
VDD=3.3V, Ta=25 C, 1/3bias, fFR=64Hz,
PWM Frequency=500Hz setting,
All output pin open
°
VLCD=5.0V, Ta=25 C, 1/3bias, fFR=64Hz,
Unused Integrated regulator,
LED generate off,
All output pin open
°
VLCD=5.0V, Ta=25 C, 1/3bias, fFR=64Hz,
Used Integrated regulator,
LED generate off,
All output pin open
°
VLCD=5.0V, Ta=25 C,1/3bias, fFR=64Hz,
Used Integrated regulator,
PWM Frequency=500Hz setting,
All output pin open
(Note1) Integrated regulator using case, please add load regulation value to output voltage listed above.
(Note2) Power save mode 1 and frame inversion setting
(Note3) Iload: In case, load current from only one port
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TSZ02201-0A2A0D300110-1-2
10.Apr.2015 Rev.006
BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Electrical Characteristics – continued
Integrated Regulator Characteristics (Ta=-30°C to +75°C, VDD=1.8V to 3.6V, VLCD=3.3V to 5.5V, VSS=0)
(BU97981KV)
Limits
Parameter
Symbol
Unit
Conditions
Min
Typ
Max
4.5V setting (VLCD=5.5V, Ta=-30°C to 75°C)
Output Voltage 1
Vreg1
4.35
4.5
4.65
V
(Note1)
Output Voltage 2
Load Regulation
(Note2)
Vreg2
delta
Vreg
4.42
4.5
4.58
V
4.5V setting (VLCD=5.5V, Ta=25°C)
-
-
0.3
V
Iout = -300µA
(Note1)
(Note1)In case integrated regulator using, please satisfy condition that Vreg output lower than VLCD - 0.5V.
(Note2) Load regulation: Vreg block load regulation only. Do not include other block ability.
(BU97981MUV)
Parameter
Symbol
Limits
Min
Typ
Max
Unit
Conditions
4.5V setting (VLCD=5.5V, Ta=-30°C to 75°C)
Output Voltage 1
Vreg1
4.30
4.5
4.70
V
Output Voltage 2
Vreg2
delta
Vreg
4.38
4.5
4.62
V
4.5V setting (VLCD=5.5V, Ta=25°C)
-
-
0.3
V
Iout = -300µA
Load Regulation
(Note2)
(Note1)
(Note1)
(Note1)n case integrated regulator using, please satisfy condition that Vreg output lower than VLCD – 0.5V.
(Note2) Load regulation: Vreg block load regulation only. Do not include other block ability.
(BU97981GU)
Parameter
Symbol
Limits
Min
Typ
Max
Unit
Conditions
4.5V setting (VLCD=5.5V, Ta=-30°C to 75°C)
Output Voltage 1
Vreg1
4.25
4.5
4.70
V
Output Voltage 2
Vreg2
delta
Vreg
4.40
4.5
4.60
V
4.5V setting (VLCD=5.5V, Ta=25°C)
-
-
0.3
V
Iout = -300µA
Load Regulation
(Note2)
(Note1)
(Note1)
(Note1)In case integrated regulator using, please satisfy condition that Vreg output lower than VLCD - 0.5V.
(Note2) Load regulation: Vreg block load regulation only. Do not include other block ability.
Oscillation Frequency Characteristics (Ta=-30°C to +75 °C, VDD=1.8V to 3.6V, VLCD=3.3V to 5.5V, VSS=0)
Limits
Parameter
Symbol
Unit
Conditions
Min
Typ
Max
Frame Frequency 1
fFR1
57.6
64
70.4
Hz
VDD=3.3V, Ta=25°C, fFR=64Hz setting
Frame Frequency 2
fFR2
51.2
64
73.0
Hz
VDD=2.5V to 3.6V fFR=64Hz setting
Frame Frequency 3
fFR3
45.0
-
64
Hz
VDD=1.8V to 2.5V fFR=64Hz setting
CLKIN Input Frequency
fCLK
-
2
4
MHz
About detail function, please refer to the frame frequency setting of DISCTL command.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
MPU Interface Characteristics (Ta=-30°C to +75 °C, VDD=1.8V to 3.6V, VLCD=3.3V to 5.5V, VSS=0)
Limits
Parameter
Symbol
Unit
Conditions
Min
Typ
Max
Input Rise Time
tr
Input Fall Time
-
-
50
ns
tf
-
-
50
ns
SCL Cycle Time
tSCYC
250
-
-
ns
“H” SCL Pulse Width
tSHW
50
-
-
ns
“L” SCL Pulse Width
tSLW
50
-
-
ns
SD Setup Time
tSDS
50
-
-
ns
SD Hold Time
tSDH
50
-
-
ns
CSB Setup Time
tCSS
50
-
-
ns
CSB Hold Time
tCSH
50
-
-
ns
“H” CSB Pulse Width
tCHW
50
-
-
ns
tCHW
CSB
tCSH
tCSS
tr
tf
SCL
tSCYC
tSLW
tSHW
tSDS
tSDH
SD
Figure 8. Serial Interface Timing
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BU97981xxx Series
MAX 196 segments (SEG49xCOM4)
Datasheet
I/O Equivalence Circuit
(BU97981KV)
VLCD
VDD
VSS1
VSS1
VDD
TEST1
VDD
VSS
CSB, SD,
SCL,INHb
CLKIN
VDD
PWMOUT
VSS
VSS1
VDD
VLCD
SEG0-14
COM0-3
SEG15-45
VSS1
VSS1
VLCD
SEG46-48
VSS2
VSS1
Figure 9. I/O Equivalence Circuit
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BU97981xxx Series
MAX 196 segments (SEG49xCOM4)
Datasheet
I/O Equivalence Circuit – Continued
(BU97981MUV)
VLCD
VDD
VSS1
VSS1
VDD
VDD
TEST1
VSS
CSB, SD,
SCL,INHb
CLKIN
VSS
VDD
VLCD
SEG0-11
COM0-3
SEG12-38
VSS1
VSS1
VLCD
SEG39-41
VSS2
VSS1
Figure 10. I/O Equivalence Circuit
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BU97981xxx Series
MAX 196 segments (SEG49xCOM4)
Datasheet
I/O Equivalence Circuit – Continued
(BU97981GU)
VLCD
VDD
VSS1
VSS1
VDD
VDD
PWMOUT
VSS1
CSB, SD,
SCL,INHb
CLKIN
VDD
VSS
SEG0-14
COM0-3
VSS1
VLCD
VLCD
SEG15-45
SEG46-48
VSS1
VSS2
VSS1
Figure 11. I/O Equivalence Circuit
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Example of Recommended Circuit
(BU97981KV)
1. LED/GPO Using Case
[LED]&[GPO]
LED ： 3port
GPO ： 5port
LCD ： 164segments
VLED
Regarding resistor value
Please detect the value according to
input current value. (current MAX = 20mA)
VLCD
SEG48 (LED1)
SEG47 (LED2)
SEG46 (LED3)
VDD
BU97981KV
5.0V
3.3V
VSS1
VSS2
TEST1 CSB SCL SD
Other
device
SEG45(GPO1)～
SEG41(GPO5)
SEG0～SEG40
INHb CLKIN
LCD
COM0～COM3
CLKIN
External CLK input terminal
Input signal from controller
In case being unused, connect to VSS.
2. SEG Output Only Case
VLCD
VDD
BU97981KV
5.0V
3.3V
VSS1
VSS2
TEST1 CSB SCL SD
SEG0～SEG48
INHb CLKIN
COM0～COM3
LCD
CLKIN
External CLK input teminal
Input signal from controller In case being unused, connect to VSS.
Figure 12. BU97981KV
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Example of Recommended Circuit
– Continued
(BU97981MUV)
1. LED/GPO Using Case
LED ： 3port
GPO ： 5port
LCD ： 136segments
VLED
Regarding resistor value
Please detect the value according to
input current value. (current MAX =
20mA)
VLCD
SEG39 (LED1)
SEG40 (LED2)
SEG41 (LED3)
VDD
BU97981MUV
5.0V
Other
device
SEG38(GPO1)～
SEG34(GPO5)
3.3V
VSS1
VSS2
TEST1 CSB SCL SD INHb CLKIN
Input signal from controller
SEG0～SEG33
LCD
COM0～COM3
CLKIN
External CLK input terminal
In case being unused, connect to VSS.
2. SEG Output Only Case
VLCD
VDD
BU97981MUV
5.0V
3.3V
VSS1
VSS2
TEST1 CSB SCL SD
SEG0～SEG41
INHb CLKIN
Input signal from controller
Figure 13. BU97981MUV
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© 2012 ROHM Co., Ltd. All rights reserved.
TSZ22111･15･001
LCD
COM0～COM3
CLKIN
External CLK input teminal
In case being unused, connect to VSS.
E.g. of Recommended Circuit
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Example of Recommended Circuit
– Continued
(BU97981GU)
1. LED/GPO Using Case
LED ： 3port
GPO ： 5port
LCD ： 164segments
VLED
Regarding resistor value
Please detect the value according to
input current value. (current MAX =
20mA)
VLCD
SEG48 (LED1)
SEG47 (LED2)
SEG46 (LED3)
VDD
BU97981GU
5.0V
Other
device
SEG45(GPO1)～
SEG41(GPO5)
3.3V
VSS1
VSS2
SEG0～SEG40
CSB SCL SD INHb CLKIN
Input signal from controller
LCD
COM0～COM3
CLKIN
External CLK input terminal
In case being unused, connect to VSS.
2. SEG Output Only Case
VLCD
VDD
BU97981GU
5.0V
3.3V
VSS1
VSS2
SEG0～SEG48
CSB SCL
SD INHb CLKIN
LCD
COM0～COM3
＊CLKIN
External CLK input teminal
In case being unused, connect to VSS.
Input signal from controller
Figure 14. BU97981GU
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Function Descriptions
Command and Data Transfer Method
3-SPI (3 wire serial interface)
This device is controlled by 3-wire signal (CSB, SCL, and SD).
First, Interface counter is initialized with CSB=“H”,
and CSB=”L” makes SD and SCL input enable.
The protocol of 3-SPI transfer is as follows.
Each command starts with Command or Data judgment bit (D/C) as MSB data,
and continuously in order of D6 to D0 are followed after CSB =”L”.
th
(Internal data is latched at the rising edge of SCL, it converted to 8bits parallel data at the falling edge of 8 CLK.)
When CSB rise from “L” to “H”, and at this time sending commands are less than 8bit, command and data transfer are
canceled. To start sending command again, please fall CSB=”L” and send command continuously.
After sending RAMWR or BLKWR or GPOSET command, BU97981KV/MUV is in the RAM data input mode. Under this
mode, device can not accept new commands.
In this case, please rise CSB=”H” and fall CSB=”L”, after this sequence device released from RAM data input mode, and
can accept new command.
1st byte Command
2nd byte Command
3rd byte Command
CSB
SCL
SD
D/C
D6 D5 D4
D3 D2 D1 D0 D/C D6 D5 D4 D3 D2 D1 D0 D/C D6 D5 D4 D3 D2 D1 D0 D/C
D6
Figure 15. 3-SPI Data Transfer Format
8bit data, sending after RAMWR command, are display RAM data
8bit data, sending after BLKWR command, are blink RAM data
SCL and SD can be set to “H” or cleared to “L” during CSB=”H”
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Write Display Data and Transfer Method
This device has Display Data RAM (DDRAM) of 49×4=196bit.
The relationship between data input and display data, DDRAM data and address are as follows.
1st Byte
2nd Byte
Command Command Command
10000011
00000000
10100000
a b
d
e f
g h
i
j
k
l
m n o
p
…
Display RAM data
RAM Write
Address set
c
According to this command, 8bit binary data will write to DDRAM. The address which starts data writing is specified by
“ADSET” command, and increment after finish writing display data every 4 bit.
It is able to write to DDRAM by continuously sending data.
(In case data is sent continuously after write date at 30h (KV: SEG48), RAM data will be written to 31h (dummy address)
and return to address 00h (SEG0) automatically.)
In case, SEG port assigned to GPO or LED port by OUTSET1 command, corresponding SEG address do not change
and used as dummy address.
(BU97981KV,BU97981GU)
DDRAM address
01
02
03
0
a
e
i
m
1
b
f
j
n
2
c
g
k
o
3
d
h
l
p
SEG
0
SEG
1
SEG
2
SEG
3
04
05
06
07
・・・
2Fh
SEG
4
SEG
5
SEG
6
SEG
7
….
SEG
47
(BU97981MUV)
BIT
01
02
03
0
a
e
i
m
1
b
f
j
n
2
c
g
k
o
3
d
h
l
p
SEG
0
SEG
1
SEG
2
SEG
3
31h
04
・・・
29
COM0
COM1
COM2
COM3
SEG
48
Dummy data
DDRAM address
00
30h
DUMMY
ADDRESS
BIT
00
2A
・・・
2Fh
30h
31h
COM0
DUMMY ADDRESS
COM1
COM2
COM3
SEG
4
SEG
41
Display data write to DDRAM every 4bits.
In case CSB change from ”L” to ”H” before 4bits data transfer finish, RAM write is canceled.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
1st byte Command / 2nd byte Command
Display data
Command
CSB
SCL
SD
RAMWR command
Address set command
D7
D6
D5
D4
D3
D2
D1
D0
D7
D6
D5
D4
D3
D2
D1
D0
Internal Signal
RAM write
Address 00h
Address 01h
Address 02h
data lower than 4bit case
RAM write is canceled
RAM write every 4bit
1st byte Command / 2nd byte Command
Display data
Command
CSB
SCL
SD
D7
RAMWR command
Address set command
D6
D5
D4
D3
D2
D5
D4
D3
D2
D1
D0
D7
D6
D5
D4
Internal Signal
RAM write
Address 00h
Address 30h
Address 31h
Addres00h
Auto increment
Return to address 00h
Figure 16. Display Data Transfer Method
Blink Function
This device has Blink function. Blink function is able to set each segment port individually.
Blink ON/OFF and Blink frequency are set by the BLKSET command.
Blink frequency varies, according to fCLK characteristics.
Blink setup of each segments are controlled by BLKWR command.
The write start address is specified by “BLKADSET” command. And this address will increment after finish writing blink
data every 4 bit. The relation of BLKWR command, blink ram data, and blinking segment port is below.
In case of data is “1”, segment will blink, on the other hand data is “0”, do not blink.
(In case data is written continuously, after write date at 30h (KV: SEG48), ram data will be written to 31h (dummy
address) and return to address 00h (SEG0) automatically.)
Please refer to following figure about Blink operation of each segment.
In case, SEG port assigned to GPO or LED port by OUTSET1 command, corresponding SEG address do not change
and used as dummy address.
1st Byte
2nd Byte
Command Command
10000100
00000011
Blink set
1st Byte
2nd Byte
Command Command
Command
00000000
11000000
10000111
Blink Address set
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Blink
RAMWR
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a b c d
e
f
g
h
i
j
k
l
m n o
p
…
Blink RAM data
TSZ02201-0A2A0D300110-1-2
10.Apr.2015 Rev.006
BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
(BU97981KV,BU97981GU)
Blink RAM Address
01
02
03
0
A
e
i
m
1
B
f
j
n
2
C
g
k
o
3
D
h
l
p
SEG
0
SEG
1
SEG
2
SEG
3
04
05
06
07
・・・
2Fh
SEG
4
SEG
5
SEG
6
SEG
7
SEG
47
(BU97981MUV)
BIT
01
02
03
0
a
e
i
m
1
b
f
j
n
2
c
g
k
o
3
d
h
l
p
SEG
0
SEG
1
SEG
2
SEG
3
31h
04
29
・・・
2A
COM0
COM1
COM2
COM3
SEG
48
Dummy data
Blink RAM Address
00
30h
DUMMY
ADDRESS
BIT
00
・・・
2Fh
30h
31h
COM0
COM1
DUMMY ADDRESS
COM2
COM3
SEG
4
SEG
41
DDRAM data
SEG A
SEG B
SEG C
SEG D
SEG A
SEG B
SEG C
SEG D
SEG A
SEG B
SEG C
SEG D
Blink RAM data
Segment output
SEG A
SEG B
SEG C
SEG D
SEG A
Blink frequency
under the 2Hz stting segment output will blink every 0.5 second (ON->OFF->ON)
SEG B
SEG C
SEG D
SEG A
SEG B
SEG C
SEG D
SEGA/B is blink
Figure 17. Blink Operation
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
LCD Driver Bias/Duty Circuit
This LSI generates LCD driving voltage with on-chip Buffer AMP.
And it can drive LCD at low power consumption
Line and frame inversion can be set in MODESET command.
1/4duty, 1/3duty and static mode can be set DISCTL command.
About each LCD driving waveform, please refer to “LCD driving waveform” descriptions.
Initial state
Initial state, after Software Reset command input
1. Display off
2. All command register value set Reset state.
3. DDRAM address data and Blink address data are initializing
(DDRAM data and Blink RAM data are not initializing.
Please write DDRAM data and Blink RAM data before Display on.)
Command / Function list
Function Description Table
NO
Command
Function
1
Mode Set
2
Display control (DISCTL)
Set LCD drive mode
(frame freq., line/frame inversion)
3
Address set (ADSET)
Set display data RAM address for RAMWR command
4
Blink set (BLKSET)
Set Blink mode on/off
5
Blink address set (BLKADSET)
Set Blink data RAM address for BLKWR command
6
7
8
9
(MODESET)
Set LCD drive mode (display on/off, current mode)
SEG/GPO port change
(OUTSET1)
SEG/LED port change
(OUTSET2)
LED1 drive control (PWM1SET)
(H piece adjustment of PWM1)
LED2-3 drive control (PWM2SET)
(H piece adjustment of PWM2)
Select segment output/general purpose output (GPO)
Select segment output/LED driving output
Set PWM1 signal “H” width for LED1 driving
Set PWM2 signal “H” width for LED2-3 driving
10
Display data RAM WRITE (RAMWR)
Write display data to display data RAM
11
Blink RAM WRITE (BLKWR)
Write Blink data to BLINK data RAM
12
All Pixel ON (APON)
Set all Pixel display on
13
All Pixel OFF (APOFF)
Set all Pixel display off
14
All Pixel On/Off mode off (NORON)
Set normal display mode (APON/APOFF cancel)
15
Software Reset (SWRST)
Software Reset
16
OSC external input (OSCSET)
Set External clock input
17
Integrated Regulator setup (REGSET)
Set integrated regulator voltage output
18
GPO output set (GPOSET)
Set GPO output data
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Command Detail Descriptions
D/C, Data / Command judgment bit (MSB)
Detail, please refer to 3wire serial I/F
Mode Set (MODESET)
MSB
D/C
D6
st
1 byte command
2
nd
byte command
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
0
0
0
1
81h
-
0
0
0
0
P3
P2
P1
P0
-
00h
Display Set
Condition
Display OFF
P3
Reset state
0
○
Display ON
1
Display OFF : No LCD driving mode (Output: VSS Level)
Turn off OSC circuit and LCD power supply circuit. (Synchronized with frame freq)
Display ON : LCD driving mode
Turn on OSC circuit and LCD power supply circuit.
Read data from DDRAM and display to LCD.
LED port and GPO port output state are not influenced by a Display on/off state
Output state is decided by command setup (GPOSET, OUTSET1, OUTSET2, PWM1SET, PWM2SET) and INHb
terminal state. About detail, please refer to each command description.
LCD drive mode set
Condition
P2
Reset state
Frame inversion
0
○
Line inversion
1
Current mode set
Condition
P1
P0
Reset state
Power save mode1
0
0
○
Power save mode2
0
1
Normal mode
1
0
High power mode
1
1
(Reference data of consumption current)
Condition
Current consumption
Power save mode 1
×1.0
Power save mode 2
×1.7
Normal mode
×2.7
High power mode
×5.0
The value changes according to the panel load.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Display Control (DISCTL)
st
1 byte Command
2
nd
byte Command
Duty Set
Condition
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
0
0
1
0
82h
-
0
0
0
0
P3
P2
P1
P0
-
02h
P3
P2
Reset state
1/4duty (1/3bias)
0
0
○
1/3duty (1/3bias)
0
1
Static (1/1bias)
1
*
*: Don‟t care
In 1/3duty, Display data and Blink data of COM3 is ineffective.
COM1 and COM3 output are same data.
Please be careful of transmission of display data and blink data.
The examples of SEG/COM output waveform, under the each Bias/Duty set up, are shown at “LCD Driver
Bias/Duty Circuit” description.
Frame Frequency Set
Condition
(1/4,1/3,1/1duty)
(128Hz, 130Hz, 128Hz)
(85Hz, 86hz, 64Hz)
(64Hz, 65Hz, 48Hz)
(51Hz, 52Hz, 32Hz)
P1
P0
0
0
1
1
0
1
0
1
Reset state
○
Relation table, between Frame frequencies (FR), integrated oscillator circuit (OSC) and Divide number.
(Note1)
Divide
FR [Hz]
DISCTL
Duty set (P3,P2)
Duty set (P3,P2)
(P1,P0)
(0,0)
(0,1)
(1,*)
(0,0)
(0,1)
(1,*)
(0,0)
1/4duty
160
1/3duty
156
1/1duty
160
1/4duty
128
1/3duty
131.3
1/1duty
128
(0,1)
240
237
320
85.3
86.4
64
(1,0)
320
315
428
64
65
47.9
(1,1)
400
393
640
51.2
52.1
32
(Note1) FR is frame frequency, in case OSC frequency = 20.48KHz (typ).
The Formula, to calculate OSC frequency from Frame frequency is below.
“ OSC frequency = Frame frequency (measurement value) x Divide number ”
Divide number：Please decide by using the value of Frame Frequency Set (P1,P0) and duty setting (P3,P2).
Ex)
(P1,P0) = (0,1) , (P3,P2) = (0,1) =>
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TSZ02201-0A2A0D300110-1-2
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Address Set (ADSET)
st
1 byte Command
2
nd
byte Command
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
0
0
1
1
83h
-
0
0
P5
P4
P3
P2
P1
P0
-
00h
Set start address to write DDRAM data.
The address can be set from 00h to 30h. (Address 31h is used at dummy address)
Do not set other address. (Except 00h to 31h address is not acceptable.)
In case, write data to DDRAM, please send RAMWR command certainly.
Blink Set (BLKSET)
st
1 byte Command
2
nd
byte Command
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
0
1
0
0
84h
-
0
0
0
0
0
P2
P1
P0
-
00h
Set Blink ON/OFF.
About detail, please refer to a “Blink function”.
Blink set
Blink mode(Hz)
P2
P1
P0
Reset state
OFF
0
0/*
0/*
○
1.6
1
0
0
2.0
1
0
1
2.6
1
1
0
4.0
1
1
1
*: Don‟t care
Blink Address Set (BLKADSET)
st
1 byte Command
2
nd
byte Command
MSB
D/C
D6
1
0
0
0
0
1
0
0
P5
P4
P3
P2
D5
D4
D3
D2
LSB
D0
Hex
1
1
87h
-
P1
P0
-
00h
D1
Reset
Set Blink data RAM start address to write.
The address can be set from 00h to 30h. (Address 31h is used at dummy address)
Do not set other address. (Except 00h-31h address is not acceptable.)
In case, write data to Blink RAM, please send BLKWR command certainly.
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TSZ02201-0A2A0D300110-1-2
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
SEG/GPO Port Change (OUTSET1)
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
1
0
0
0
88h
-
0
0
0
P4
P3
P2
P1
P0
-
00h
st
1 byte Command
2
nd
byte Command
Set output mode, Segment output or GPO output.
P4 to P0: Select changing port number. (SEG15 to SEG45 ports are SEG mode/GPO mode selectable)
In case, GPO output is selected, Terminal output data is set by GPOSET command.
Ex) In case SEG45 port assigned to GPO,
If GPO1 data is “H”, GPO1 (SEG45) port outputs “H” (VLCD Level).
If GPO1 data is “L”, GPO1 (SEG45) port outputs “L” (VSS level).
Output terminal state under the P2 to P0 set condition is listed below
(BU97981KV ,BU97981GU)
Condition
P4 P3 P2 P1 P0
SEG Terminal state (SEG output/GPO output)
SEG15
SEG16
SEG17
SEG18
Terminal Terminal Terminal Terminal
SEG42
SEG43
SEG44
SEG45
Terminal Terminal Terminal Terminal
0
0
0
0
0
SEG15
SEG16
SEG17
SEG18
SEG42
SEG43
SEG44
SEG45
0
0
0
0
1
SEG15
SEG16
SEG17
SEG18
SEG42
SEG43
SEG44
GPO1
0
0
0
1
0
SEG15
SEG16
SEG17
SEG18
SEG42
SEG43
GPO2
GPO1
0
0
0
1
1
SEG15
SEG16
SEG17
SEG18
SEG42
GPO3
GPO2
GPO1
0
0
0
0
SEG15
SEG16
SEG17
SEG18
GPO4
GPO3
GPO2
GPO1
1
1
SEG15
SEG16
SEG17
SEG18
GPO4
GPO3
GPO2
GPO1
SEG16
SEG17
GPO28
GPO4
GPO3
GPO2
GPO1
1
1
1
・
・
・
0
1
1
1
0
0
SEG15
1
1
1
0
1
SEG15
SEG16
GPO29
GPO28
GPO4
GPO3
GPO2
GPO1
1
1
1
1
0
SEG15
GPO30
GPO29
GPO28
GPO4
GPO3
GPO2
GPO1
1
1
1
1
1
GPO31
GPO30
GPO29
GPO28
GPO4
GPO3
GPO2
GPO1
・
・
・
(BU97981MUV)
Condition
SEG Terminal state (SEG output/GPO output)
P4 P3 P2 P1 P0
SEG12
SEG13
SEG14
SEG15
Terminal Terminal Terminal Terminal
SEG35
SEG36
SEG37
SEG38
Terminal Terminal Terminal Terminal
0
0
0
0
0
SEG12
SEG13
SEG14
SEG15
SEG35
SEG36
SEG37
SEG38
0
0
0
0
1
SEG12
SEG13
SEG14
SEG15
SEG35
SEG36
SEG37
GPO1
0
0
0
1
0
SEG12
SEG13
SEG14
SEG15
SEG35
SEG36
GPO2
GPO1
0
0
0
1
1
SEG12
SEG13
SEG14
SEG15
SEG35
GPO3
GPO2
GPO1
0
0
0
0
SEG12
SEG13
SEG14
SEG15
GPO4
GPO3
GPO2
GPO1
1
0
1
・
・
・
1
1
1
SEG12
SEG13
SEG14
SEG15
GPO4
GPO3
GPO2
GPO1
1
1
0
0
0
SEG12
SEG13
SEG14
GPO24
GPO4
GPO3
GPO2
GPO1
1
1
0
0
1
SEG12
SEG13
GPO25
GPO24
GPO4
GPO3
GPO2
GPO1
1
1
0
1
0
SEG12
GPO26
GPO25
GPO24
GPO4
GPO3
GPO2
GPO1
1
1
0
1
1
GPO27
GPO26
GPO25
GPO24
GPO4
GPO3
GPO2
GPO1
GPO27
GPO26
GPO25
GPO24
GPO4
GPO3
GPO2
GPO1
・
・
・
11100 – 11111
In case, the SEG port is switched to the GPO port, DDRAM address and Blink RAM address do not change.
In this case, DDRAM address and Blink RAM address, selected GPO output mode, is dummy address.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Change Command of a SEG/LED port (OUTSET2)
MSB
D/C
st
1 byte Command
2
nd
byte Command
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
1
0
0
1
89h
-
0
0
0
0
0
P2
P1
P0
-
00h
This command affects segment port/LED port selection and PWM resolution set up.
P2: Resolution setting
Setting
P2
Reset condition
12bit resolution mode
0
○
8bit resolution mode
1
P1 to P0: select SEG driving mode or LED driving mode, this command affect at SEG46 to SEG48 port.
The effective address is 00h to 03h. In case LED driving mode is selected, output turns into “NMOS Open Drain”
from segment output.
The state of the output terminal in case P1 to P0 are setup is shown below
(BU97981KV, BU97981GU)
Setting
SEG Terminal state (SEG output/LED output)
P1
P0
SEG46 Terminal
SEG47 Terminal
SEG48 Terminal
0
0
SEG46
SEG47
SEG48
0
1
SEG46
SEG47
LED1
1
0
SEG46
LED2
LED1
1
1
LED3
LED2
LED1
(BU97981MUV)
Setting
SEG Terminal state (SEG output/LED output)
P1
P0
SEG39 Terminal
SEG40 Terminal
SEG41 Terminal
0
0
SEG39
SEG40
SEG41
0
1
SEG39
SEG40
LED1
1
0
SEG39
LED2
LED1
1
1
LED3
LED2
LED1
In this case, DDRAM address and a Blink RAM address of SEG port that set up to LED port, do not change.
The address assigned to LED port is used as dummy address respectively.
The output state of GPO, LED, and PWMOUT port under the INHb H/L, display on/off, and RESET state are listed
below.
Control
port
GPO
INHb
H
According to
GPOSET
command
DISPLAY
L
Low Fix
PWMOUT
According to
PWM2SET
command
Low Fix
LED
According to
PWM1/PWM2SET
command
Hi-Z
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TSZ22111･15･001
ON
According to
GPOSET
command
OFF
According to
GPOSET
command
According to
PWM2SET
command
According to
PWM2SET
command
According to
According to
PWM1/PWM2SET PWM1/PWM2SET
command
command
25/46
RESET state
GPO unselected
(All SEG output)
Low Fix
LED unselected
(All SEG output)
TSZ02201-0A2A0D300110-1-2
10.Apr.2015 Rev.006
BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
LED1 Drive-Control (PWM1 “H” width control) Command
(PWM1SET)
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
1
0
1
0
8Ah
-
byte Command
0
0
P11
P10
P9
P8
P7
P6
3 byte Command
0
0
P5
P4
P3
P2
P1
P0
-
00h
00h
st
1 byte Command
2
nd
rd
nd
rd
2 and 3 byte command data are able to set from 00h to 3Fh (described as 8bit binary data).
nd
rd
In case, other value selected, sending command is ignored, and 2 and 3 byte command data set 3Fh.
nd
rd
In reset state, 2 and 3 byte command data set 00h.
In case, the command less than 3 byte, sending command are canceled.
According to PWM1SET command, LED1 driving signal is adjustable. PWM “H” width is adjustable by 12bit/8bit
resolution.
nd
rd
Explanation about P11 to P6 data of 2 byte command and P5 to P0 data of 3 byte command as follows
nd
rd
(The 2 byte data are used as upper 6bit, and 3 byte data are used as lower 6 bits.)
12bit mode : P11 data is used as MSB of 12 bits, and P0 data is used as LSB.
8bit mode : P11 to P8 are used as invalid bit.
P7 data is used as MSB of 8 bits, and P0 data is used LSB.
LED driving period is decided by the “H” width of PWM signal, generated by PWM generator circuit.
(resolution: 8bit/12bit selectable)
Ex.1
In case of external PWM clock 2MHz, parameter setting value is 2047 (P11 to P0 data: 7FFh)
1bit resolution: 500ns
ALL HI setting: PWM signal frequency about 500Hz, H width about 2.00msec
ALL Low setting: PWM signal frequency about 500Hz, H width 0us (In case of 12bit)
Ex.2
In case of internal PWM clock 40.96KHz(TYP), parameter 127 (P11 to P0 data: 7Fh)
1bit resolution: 24.41us
ALL HI setting: PWM signal frequency about 160Hz, H width about 6.20msec
ALL Low setting: PWM signal frequency about 160Hz, H width 0us (In case of 8bit)
BU97981 series PWM frequency is twice faster than BU9798 series in case of internal OSC clock use.
This command is reflected, synchronizing with a next PWM frame head.
And, LED port output is as follows
INHb=”H” : LED port output LED driving signal.
INHb=”L” : LED port output Hi-Z.
LED port operation does not affect Display ON/OFF state.
FFFh(FFh)
(H width : wide ）
PMW(ALL HI）
Duty shift
000h(00h)
(H width : narrrow ）
PMW(ALL Low）
About the PWM frequency and PWM “H” width calculation
PWM cycle and PWM “H” width, decided by PWM clock cycle is described as follows.
(PWM clock cycle is a minimum unit of PWM “H” width)
PWM frequency = PWM clock cycle × (Number of the steps(12bit = 4096, 8bit =256) – 1)
PWM H width = PWM clock cycle × Parameter set value(12bit: 0 to 4095, 8bit: 0 to 255)
PWM Duty = PWM H width/PWM cycle = Parameter set value / Number of the steps
In case, PWM is generated from internal clock, the PWM cycle varies, according to OSC frequency.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
LED2 to 3 Drive-Control (PWM2 “H” width control) Command
(PWM2SET)
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
0
1
0
1
1
8Bh
-
byte Command
0
0
P11
P10
P9
P8
P7
P6
-
00h
3 byte Command
0
0
P5
P4
P3
P2
P1
P0
-
00h
st
1 byte Command
2
nd
rd
P7 to P0 data are able to set from 00h to 3Fh (described as 8bit binary data).
In case, other value selected, sending command is ignored, and P7 to P0 data set 3Fh.
In reset state, P7 to P0 data is 00h.
In case, the command less than 3 byte, sending command are canceled.
According to PWM2SET command, LED2 driving signal, LED3 driving signal, and PWMOUT output “H” width are
adjustable. PWM “H” width is adjustable by 12bit/8bit resolution.
nd
rd
Explanation about P11 to P6 data of 2 byte command and P5 to P0 data of 3 byte command as follows
nd
rd
(The 2 byte data are used as upper 6bit, and 3 byte data are used as lower 6 bits.)
12bit mode : P11 data is used as MSB of 12 bits, and P0 data is used as LSB.
8bit mode : P11 to P8 are used as invalid bit.
P7 data is used as MSB of 8 bits, and P0 data is used LSB.
LED driving period is decided by the “H” width of PWM signal, generated by PWM generator circuit.
(resolution : 8bit/12bit selectable)
Ex.1
In case of external PWM clock 2MHz, parameter setting value is 2047 (P11 to P0 data: 7FFh)
1bit resolution: 500ns
ALL HI setting: PWM signal frequency about 500Hz, H width about 2.00msec
ALL Low setting: PWM signal frequency about 500Hz, H width 0us (In case of 12bit)
Ex.2
In case of internal PWM clock 40.96KHz(TYP), parameter 127 (P11 to P0 data: 7Fh)
1bit resolution: 24.41us
ALL HI setting: PWM signal frequency about 160Hz, H width about 6.20msec
ALL Low setting: PWM signal frequency about 160Hz, H width 0us (In case of 8bit)
BU97981 PWM frequency is twice faster than BU9798 in case of internal OSC clock use.
This command is reflected, synchronizing with a next PWM frame head.
And, LED port output is as follows
INHb=”H” : LED port output LED driving signal, PWMOUT port output PWM signal.
INHb=”L” : LED port output Hi-Z, PWMOUT port output “L”
LED port and PWMOUT port operation do not affect Display ON/OFF state.
FFFh(FFh)
(H width : wide ）
PMW(ALL HI）
Duty shift
000h(00h)
(H width : narrrow ）
PMW(ALL Low）
About the PWM frequency and PWM “H” width calculation
PWM cycle and PWM “H” width, decided by PWM clock cycle is described as follows.
(PWM clock cycle is a minimum unit of PWM “H” width)
PWM frequency = PWM clock cycle × (Number of the steps (12bit = 4096, 8bit =256) – 1)
PWM H width = PWM clock cycle × Parameter set value (12bit: 0 to 4095, 8bit: 0 to 255)
PWM Duty = PWM H width/PWM cycle = Parameter set value / Number of the steps
In case, PWM is generated from internal clock, the PWM cycle varies, according to OSC frequency.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
RAM WRITE (RAMWR)
st
1 byte Command
2
nd
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
1
0
0
0
0
0
A0h
-
byte Command
Display data
Random
….
N byte Command
Display data
Random
st
Input data, sending after 1 byte command, are used as Display data. And display data are sent every 4bits. Please set
this command after the ADSET command.
Blink RAM WRITE (BLKWR)
st
1 byte Command
2
nd
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
1
0
0
0
0
0
0
C0h
-
byte Command
Blink data
Random
….
N byte Command
Blink data
Random
st
Input data, sending after 1 byte command, are used as Display data. And display data are sent every 4bits. Please set
this command after the BLKADSET command.
All Pixel ON (APON)
st
1 byte Command
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
1
0
0
0
1
91h
-
After sending the command, all SEG output set display on state regardless of the DDRAM data.
(This command affect to the SEG output terminal only (except GPO and LED output) )
All Pixel OFF (APOFF)
st
1 byte Command
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
1
0
0
0
0
90h
-
After sending the command, all SEG output set display off state regardless of the DDRAM data.
(This command affect to the SEG output terminal only (except GPO and LED output) )
All Pixel ON/OFF mode off (NORON)
st
1 byte Command
MSB
D/C
D6
D5
D4
D3
D2
1
0
0
1
0
0
D1
LSB
D0
Hex
Reset
1
1
93h
-
Hex
Reset
92h
-
After sending the command, all SEG output released from APON/APOFF state.
And SEG port output signal according to DDRAM data.
(This command affect to the SEG output terminal only (except GPO and LED output) )
After reset sequence or SWRST, all output set NORON state.
Software Reset (SWRST)
st
1 byte Command
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
1
0
0
1
0
0
1
0
After sending the command, device set the reset state.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
OSC External Input Command (OSCSET)
st
1 byte Command
2
nd
byte Command
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
1
1
0
0
0
98h
-
0
0
0
0
0
P2
P1
P0
-
00h
According to the command, 4type of clock mode selectable include external clock input mode.
Detail of this command function as follows.
P2
P1
P0
Reset state
Internal CLK (PWM generation OFF)
Condition
0
0
0
○
External CLK input for PWM (PWM generation OFF)
0
0
1
Internal CLK (PWM generation ON)
0
1
0
External CLK input for PWM (PWM generation ON)
0
1
1
External CLK input for Display
1
*
*
(ROHM use only)
*: Don‟t care
(P2,P1,P0)=(0,0,1) : External PWM input mode
CLKIN：external PWM input available.
PWMOUT: “L” Output
*under the (P2,P1,P0)=(0,0,0) condition PWMOUT into same state
(P2,P1,P0)=(0,1,0) : PWM is made from integrated oscillation frequency
PWM width is set up by PWM1SET and PWM2SET command.
PWM waveform output from PWMOUT is set up by PWM2SET command.
(P2,P1,P0)=(0,1,1) : PWM is made from External CLK input from CLKIN
PWM width is set up by PWM1SET and PWM2SET command.
PWM waveform output from PWMOUT is set up by PWM2SET command.
The relation of OSC function control by each command is as follows
SEG output
integrated OSC
CLKIN terminal
LED1
(KV: SEG48)
(MUV: SEG41)
(GU: G4SEG48)
PWM
generation
External CLK
(PWM1SET)
External PWM
SEG output
PWM
generation
PWMOUT terminal
PWMOUT
LED2,3
(KV: SEG47,46)
(MUV: SEG40,39)
(GU: SEG47,46)
(PWM2SET)
Output
Control
Circuit
PWM resolution
OSCSET
command
PWMSET
command
OUTSET
command
Figure 18. OSC External Input
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Datasheet
MAX 196 segments (SEG49xCOM4)
Integrated Regulator Setting (REGSET)
st
1 byte Command
2
nd
byte Command
MSB
D/C
D6
D5
D4
D3
D2
D1
LSB
D0
Hex
Reset
1
0
0
1
1
0
0
1
99h
-
0
0
0
0
0
P2
P1
P0
-
00h
Set integrated regulator output voltage (Vreg).
Integrated regulator is turned ON/OFF according to DISPON/OFF state that controlled by MODESET command.
Setting
P2
P1
P0
Reset state
OFF (VLCD voltage)
0
0
0
○
5.0V
0
0
1
4.6V
0
1
0
4.5V
0
1
1
4.4V
1
0
0
3.4V
1
0
1
3.3V
1
1
0
3.2V
1
1
1
Please satisfy condition that REG voltage ≦ VLCD-0.5V.
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
GPO Output Set Command (GPOSET)
MSB
D/C
D6
D5
D4
D3
D2
D1
1
0
0
1
1
0
1
st
1 byte Command
2
nd
LSB
D0
0
Hex
Reset
9Ah
-
byte Command
GPO output data: P7 to P0
-
00h
rd
3 byte Command
GPO output data: P15 to P8
-
00h
th
GPO output data: P23 to 16
-
00h
-
00h
4 byte Command
th
5 byte Command
*
GPO output data: P30 to 24
*: Don‟t care
Set GPO output data.
The relation between SEG port (GPO port) and data is below.
(BU97981KV, BU97981GU)
GPOSET
GPO
SEG
GPOSET
GPO
data
port
port
data
port
P0
GPO1
SEG45
P10
GPO11
SEG
port
SEG35
GPOSET
data
P20
GPO
port
GPO21
SEG
port
SEG25
P1
GPO2
SEG44
P11
GPO12
SEG34
P21
GPO22
SEG24
P2
GPO3
SEG43
P12
GPO13
SEG33
P22
GPO23
SEG23
P3
GPO4
SEG42
P13
GPO14
SEG32
P23
GPO24
SEG22
P4
GPO5
SEG41
P14
GPO15
SEG31
P24
GPO25
SEG21
P5
GPO6
SEG40
P15
GPO16
SEG30
P25
GPO26
SEG20
P6
GPO7
SEG39
P16
GPO17
SEG29
P26
GPO27
SEG19
P7
GPO8
SEG38
P17
GPO18
SEG28
P27
GPO28
SEG18
P8
GPO9
SEG37
P18
GPO19
SEG27
P28
GPO29
SEG17
P9
GPO10
SEG36
P19
GPO20
SEG26
P29
GPO30
SEG16
P30
GPO31
SEG15
(BU97981MUV)
GPOSET
GPO
data
port
P0
GPO1
SEG
port
SEG38
GPOSET
data
P10
GPO
port
GPO11
SEG
port
SEG28
GPOSET
data
P20
GPO
port
GPO21
SEG
port
SEG18
P1
GPO2
SEG37
P11
GPO12
SEG27
P21
GPO22
SEG17
P2
GPO3
SEG36
P12
GPO13
SEG26
P22
GPO23
SEG16
P3
GPO4
SEG35
P13
GPO14
SEG25
P23
GPO24
SEG15
P4
GPO5
SEG34
P14
GPO15
SEG24
P24
GPO25
SEG14
P5
GPO6
SEG33
P15
GPO16
SEG23
P25
GPO26
SEG13
P6
GPO7
SEG32
P16
GPO17
SEG22
P26
GPO27
SEG12
P7
GPO8
SEG31
P17
GPO18
SEG21
P27
-
-
P8
GPO9
SEG30
P18
GPO19
SEG20
P28
-
-
P9
GPO10
SEG29
P19
GPO20
SEG19
P29
-
-
P30
-
-
GPO data is transmitted for every 1byte, and GPO data output is asynchronous from frame cycle.
In case INHb=”H”, GPO output signal according to GPOSET data, on the other hand, in case INHb=”L” GPO
output GND level. GPO output does not influence by Display ON/OFF state.
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Datasheet
MAX 196 segments (SEG49xCOM4)
LCD Driving Waveform
1/4Duty
Line inversion
Frame inversion
SEGn SEGn+1 SEGn+2SEGn+3
SEGn SEGn+1 SEGn+2SEGn+3
COM0
stateA
COM0
stateA
COM1
stateB
COM1
stateB
COM2
COM2
COM3
COM3
1frame
1frame
Vreg
Vreg
COM0
COM0
VSS
VSS
Vreg
COM1
Vreg
COM1
VSS
VSS
Vreg
COM2
Vreg
COM2
VSS
VSS
Vreg
COM3
Vreg
COM3
VSS
VSS
Vreg
SEGn
Vreg
SEGn
VSS
VSS
Vreg
SEGn+1
Vreg
SEGn+1
VSS
VSS
Vreg
SEGn+2
Vreg
SEGn+2
VSS
VSS
Vreg
Vreg
SEGn+3
SEGn+3
VSS
VSS
Vreg
Vreg
stateA
stateA
(COM0-SEGn)
(COM0-SEGn)
-Vreg
-Vreg
Vreg
Vreg
stateB
stateB
(COM1-SEGn)
(COM1-SEGn)
-Vreg
-Vreg
Figure 19. Waveform of Line Inversion
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Figure 20. Waveform of Frame Inversion
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Datasheet
MAX 196 segments (SEG49xCOM4)
1/3Duty
Line inversion
Frame inversion
SEGn SEGn+1 SEGn+2SEGn+3
SEGn SEGn+1 SEGn+2SEGn+3
COM0
stateA
COM0
stateA
COM1
stateB
COM1
stateB
COM2
COM3
COM2
COM3
When 1/3duty
COM3 and COM1 is same
1frame
When 1/3duty
COM3 and COM1 is same
1frame
Vreg
Vreg
COM0
COM0
VSS
VSS
Vreg
Vreg
COM1
COM1
VSS
VSS
Vreg
Vreg
COM2
COM2
VSS
VSS
Vreg
Vreg
When 1/3duty
COM3 and COM1 COM3
is same
COM3
VSS
VSS
Vreg
Vreg
SEGn
SEGn
VSS
VSS
Vreg
Vreg
SEGn+1
SEGn+1
VSS
VSS
Vreg
Vreg
SEGn+2
SEGn+2
VSS
VSS
Vreg
Vreg
SEGn+3
SEGn+3
VSS
VSS
Vreg
Vreg
stateA
stateA
(COM0-SEGn)
(COM0-SEGn)
-Vreg
-Vreg
Vreg
Vreg
stateB
stateB
(COM1-SEGn)
(COM1-SEGn)
-Vreg
-Vreg
Figure 21. Waveform of Line Inversion
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Figure 22. Waveform of Frame Inversion
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Datasheet
MAX 196 segments (SEG49xCOM4)
1/1Duty (Static)
Line inversion
Frame inversion
SEGn SEGn+1 SEGn+2SEGn+3
COM0
COM1
SEGn SEGn+1 SEGn+2SEGn+3
stateA stateB
COM2
When 1/1duty (Static)
COM1 / COM0 is same
waveform
COM3
COM2 / COM0 is same
waveform
COM0
COM1
COM2
COM3
1frame
stateA stateB
When 1/1duty (Static)
COM1 / COM0 is same
waveform
COM2 / COM0 is same
waveform
1frame
Vreg
Vreg
COM0
COM0
VSS
Vreg
COM1
COM1 / COM0
is same
waveform
VSS
VSS
When 1/1duty
(Static)
Vreg
COM1
VSS
Vreg
Vreg
COM2 / COM0
is same
waveform
COM2
COM2
VSS
VSS
Vreg
Vreg
COM3 / COM0
is same
waveform
COM3
VSS
COM3
VSS
Vreg
Vreg
SEGn
SEGn
VSS
VSS
Vreg
Vreg
SEGn+1
SEGn+1
VSS
VSS
Vreg
Vreg
SEGn+2
SEGn+2
VSS
VSS
Vreg
Vreg
SEGn+3
SEGn+3
VSS
VSS
Vreg
Vreg
stateA
stateA
-Vreg
-Vreg
Vreg
Vreg
stateB
stateB
-Vreg
-Vreg
Figure 23. Waveform of Line Inversion
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Figure 24. Waveform of Frame Inversion
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MAX 196 segments (SEG49xCOM4)
Datasheet
Initialize Sequence
Please input sequence listed below, before start LCD driving.
(Refer to Power ON/OFF sequence)
INHb=‟L‟
↓
Input voltage supply
↓
CSB „H‟ …interface initializing
↓
CSB „L‟ …interface command sending
↓
SWRST …software reset
↓
MODESET
…Display off
↓
Various commands setting
↓
RAM WRITE
↓
Blink RAM WRITE
↓
MODESET
…Display on
↓
INHb = ‟H‟
↓
Start LCD driving
Before initialize sequence, DDRAM address, DDRAM data, Blink address and Blink data are random condition.
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Datasheet
MAX 196 segments (SEG49xCOM4)
Cautions of Power-On/ Power-Off condition
POR circuit
This LSI has “P.O.R” (Power-On Reset) circuit and Software Reset function.
Please keep the following recommended Power-On conditions in order to power up properly.
1. Please set power up conditions to meet the recommended tR, tF, tOFF, and Vbot spec below in order to ensure P.O.R
operation.
(The detection voltage of POR varies because of environment etc. To operate POR surely, Please satisfy Vbot lower
than 0.5V condition.)
VDD
Recommendation condition of tR, tF, tOFF, Vbot
tR
VDET
tOFF
tR
tOFF
Vbot
VDET
less than 10ms
Over 1ms
less than 0.5V
TYP 1.2V
Vbot
* VDET : POR detect level
Fig 18: Power ON/OFF wave
form
Figure 25. Power ON/OFF Wave
2. If it is difficult to meet above conditions, execute the following sequence after Power-On.
(1) CSB=”L”→”H” condition
(2) After CSB”H”→“L”, execute SWRST command.
In addition, in order to the SWRST command certainly, please wait 1ms after a VDD level reaches to 90% and
CSB=”L”→”H”.
Before SWRST command input device will be in unstable state, since SWRST command does not operate perfect
substitution of a POR function.
VDD
CSB
Min 1ms
Min 50ns
SWRST
Command
Figure 26. SWRST Command Sequence
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MAX 196 segments (SEG49xCOM4)
Power ON/OFF Sequence
Display ON/OFF control by INHb terminal is not asynchronous frame cycle.
To prevent incorrect display, malfunction and abnormal current,
VDD must be turned on before VLCD in power up sequence.
VDD must be turned off after VLCD in power down sequence.
Please set INHb terminal ="L" during Power ON/OFF sequence.
Please satisfies VLCD Please satisfies VLCD≥VDD, t1>0ns, t2>0ns
t2
t1
VLCD
10%
VDD
VDD min
10%
VDD min
INHｂ
SWRST
Command
MODE SET
Display off
Various Setup
RAM WRITE
Blink RAM
WRITE
MODE SET
Display on
MODE SET
Display oｆｆ
Figure 27. Power On/Off Sequence
Integrated Regulator Start-up Sequence
BU97981KV/MUV do not support integrated regulator start-up, during the normal (Vreg unused) display operation.
So, in case, LCD power supply change to Vreg output under the normal operation period, display flickering will occur.
In order to prevent this phenomenon please send MODESET command (Disp on) after REGSET command.
Please satisfies VLCD Please satisfies VLCD≥VDD, t1>0ns, t2>0ns
After SWRST command sending, please send same sequence.
t2
t1
VDD
10%
10%
VLCD
VDD min
VDD min
INHｂ
SWRST
Command
MODE SET
Display off
Various Setup
REGSET
RAM WRITE
Blink RAM
WRITE
MODE SET
Display on
MODE SET
Display oｆｆ
Figure 28. Integrated Regulator Start-up Sequence
LED Power Supply On/Off Sequence
In order to prevent irregular current, please start LED power supply after VLCD input and OUTSET2 command
sending.
Please satisfies VLCD Please satisfies VLCD≥VDD, t1>0ns, t2>0ns
VLED
t2
t1
VLCD
VDD
10%
10%
VDD min
VDD min
INHｂ
Command
SWRST
MODE SET
Display off
Various Setup
OUTSET2
RAM WRITE
Blink RAM
WRITE
MODE SET
Display on
MODE SET
Display oｆｆ
Figure 29. LED Power Supply On/Off Sequence
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Datasheet
MAX 196 segments (SEG49xCOM4)
Attention About Input Port Pull Down
Satisfy the following sequence if input terminals are pulled down by external resisters (In case MPU output Hi-Z).
Date transaction period with MPU
Input "L"
period
Input"Hi-Z"
period
CSB
SD
SCL
Figure 30. Recommended Sequence When Input Ports are Pulled Down
BU97981KV / BU9798MUV /BU97981GU adopts a 5V tolerant I/O for the digital input. This circuit includes a bus-hold
function to keep the level of HIGH. A pull down resistor of below 10Kωshall be connected to the input terminals to transit
from HIGH to LOW because the bus-hold transistor turns on during the input‟s HIGH level. (Refer to the Figure 7, Figure 8;
I/O Equivalent Circuit)
A higher resistor than approximate 10Kωcauses input terminals being steady by intermediate potential between HIGH and
LOW level so unexpected current is consumed by the system.
The potential depends on the pull down resistance and bus-hold transistor‟s resistance.
As the bus-hold transistor turns off upon the input level cleared to LOW a higher resistor can be used as a pull down
resistor if a MPU set SD and SCL lines to LOW before it releases the lines.
The LOW period preceding MPU‟s bus release shall be at least 50ns as same as a minimum CLK width ( tSLW ).
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Datasheet
MAX 196 segments (SEG49xCOM4)
Operational Notes
1.
Reverse Connection of Power Supply
Connecting the power supply in reverse polarity can damage the IC. Take precautions against reverse polarity when
connecting the power supply, such as mounting an external diode between the power supply and the IC‟s power
supply pins.
2.
Power Supply Lines
Design the PCB layout pattern to provide low impedance supply lines. Separate the ground and supply lines of the
digital and analog blocks to prevent noise in the ground and supply lines of the digital block from affecting the analog
block. Furthermore, connect a capacitor to ground at all power supply pins. Consider the effect of temperature and
aging on the capacitance value when using electrolytic capacitors.
3.
Ground Voltage
Ensure that no pins are at a voltage below that of the ground pin at any time, even during transient condition.
4.
Ground Wiring Pattern
When using both small-signal and large-current ground traces, the two ground traces should be routed separately but
connected to a single ground at the reference point of the application board to avoid fluctuations in the small-signal
ground caused by large currents. Also ensure that the ground traces of external components do not cause variations
on the ground voltage. The ground lines must be as short and thick as possible to reduce line impedance.
5.
Thermal Consideration
Should by any chance the power dissipation rating be exceeded the rise in temperature of the chip may result in
deterioration of the properties of the chip. The absolute maximum rating of the Pd stated in this specification is when
the IC is mounted on a 70mm x 70mm x 1.6mm glass epoxy board. In case of exceeding this absolute maximum
rating, increase the board size and copper area to prevent exceeding the Pd rating.
6.
Recommended Operating Conditions
These conditions represent a range within which the expected characteristics of the IC can be approximately
obtained. The electrical characteristics are guaranteed under the conditions of each parameter.
7.
Inrush Current
When power is first supplied to the IC, it is possible that the internal logic may be unstable and inrush current may
flow instantaneously due to the internal powering sequence and delays, especially if the IC has more than one power
supply. Therefore, give special consideration to power coupling capacitance, power wiring, width of ground wiring,
and routing of connections.
8.
Operation Under Strong Electromagnetic Field
Operating the IC in the presence of a strong electromagnetic field may cause the IC to malfunction.
9.
Testing on Application Boards
When testing the IC on an application board, connecting a capacitor directly to a low-impedance output pin may
subject the IC to stress. Always discharge capacitors completely after each process or step. The IC‟s power supply
should always be turned off completely before connecting or removing it from the test setup during the inspection
process. To prevent damage from static discharge, ground the IC during assembly and use similar precautions during
transport and storage.
10. Inter-pin Short and Mounting Errors
Ensure that the direction and position are correct when mounting the IC on the PCB. Incorrect mounting may result in
damaging the IC. Avoid nearby pins being shorted to each other especially to ground, power supply and output pin.
Inter-pin shorts could be due to many reasons such as metal particles, water droplets (in very humid environment)
and unintentional solder bridge deposited in between pins during assembly to name a few.
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MAX 196 segments (SEG49xCOM4)
Datasheet
Operational Notes – continued
11. Unused Input Pins
Input pins of an IC are often connected to the gate of a MOS transistor. The gate has extremely high impedance and
extremely low capacitance. If left unconnected, the electric field from the outside can easily charge it. The small
charge acquired in this way is enough to produce a significant effect on the conduction through the transistor and
cause unexpected operation of the IC. So unless otherwise specified, unused input pins should be connected to the
power supply or ground line.
12. Regarding the Input Pin of the IC
In the construction of this IC, P-N junctions are inevitably formed creating parasitic diodes or transistors. The
operation of these parasitic elements can result in mutual interference among circuits, operational faults, or physical
damage. Therefore, conditions which cause these parasitic elements to operate, such as applying a voltage to an
input pin lower than the ground voltage should be avoided. Furthermore, do not apply a voltage to the input pins
when no power supply voltage is applied to the IC. Even if the power supply voltage is applied, make sure that the
input pins have voltages within the values specified in the electrical characteristics of this IC.
13. Data transmission
To refrain from data transmission is strongly recommended while power supply is rising up or falling down to prevent
from the occurrence of disturbances on transmission and reception.
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Datasheet
MAX 196 segments (SEG49xCOM4)
Ordering Information
B
U
9
7
9
8
1
Part Number
x
U
x
-
Package
KV
MUV
GU
B
x
9
7
9
Part Number
8
1
: VQFP64
: VQFN56AV8080
: VBGA64T050A
G
U
-
Package
GU
:VBGA64T050A
E2
Packaging and forming specification
E2: Embossed tape and reel
(VQFP64, VQFN56AV8080)
ZE 2
Packaging and forming specification
E2: Embossed tape and reel
(VBGA64T050A)
Lineup
Package
Orderable Part Number
VQFP64
Reel of 1000
BU97981KV-E2
VQFN56AV8080
Reel of 1000
BU97981MUV-E2
VBGA64T050A
Reel of 2500
BU97981GU-ZE2
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BU97981xxx Series
MAX 196 segments (SEG49xCOM4)
Datasheet
Physical Dimension, Tape and Reel Information
Package Name
VQFP64
（UNIT：mm）
PKG：VQFP64
Drawing: EX252-5001-1
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MAX 196 segments (SEG49xCOM4)
Package Name
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Datasheet
VQFN56AV8080
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BU97981xxx Series
MAX 196 segments (SEG49xCOM4)
Package Name
Datasheet
VBGA064T050A
<包装仕様>
包装形態
エンボステーピング(防湿仕様)
包装数量
２５００ｐｃｓ
包装方向
Ｅ２
（リールを左手に持ち、右手でテープを引き出した
ときに、製品の１番ピンが左上にくる方向。）
1234
1234
リール
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1234
引き出し側
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BU97981xxx Series
Datasheet
MAX 196 segments (SEG49xCOM4)
Marking Diagrams
VQFN56AV8080 (TOP VIEW)
VQFP64 (TOP VIEW)
Part Number Marking
BU97981KV
Part Number Marking
BU97981
LOT Number
1PIN MARK
1PIN MARK
VBGA64T050A (TOP VIEW)
LOT Number
1PIN MARK
Part Number Marking
BU97981
LOT Number
Part Number
Package
Part Number Marking
BU97981KV
VQFP64
BU97981KV
BU97981MUV
VQFN56AV8080
BU97981
BU97981GU
VBGA64T050A
BU97981
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Datasheet
MAX 196 segments (SEG49xCOM4)
Revision History
Date
Revision
31.Aug.2012
10.Oct.2012
001
002
21.Aug.2013
003
17.Dec.2014
004
4.Feb.2015
10.Apr.2015
005
006
Changes
New Release
P.7
(BU97981MUV)
Output voltage1
MIN: 4.35 -> 4.25, MAX:4.65 -> 4.70
Output voltage2
MIN:4.42 -> 4.38, MAX:4.58 -> 4.62
P.10, P.11
Example of recommended circuit
seg -> segments
Change to New Style
P.7
(BU97981MUV)
Output voltage1
MIN: 4.25 -> 4.30
Add GU Package
P.1 Delete Package figure
P.41 Add “Z” character in Ordering information
P.37 Add the condition when power supply
P.37 Modified and add the Figure of Power ON/OFF Sequence
www.rohm.com
© 2012 ROHM Co., Ltd. All rights reserved.
TSZ22111･15･001
46/46
TSZ02201-0A2A0D300110-1-2
10.Apr.2015 Rev.006
Datasheet
Notice
Precaution on using ROHM Products
1.
Our Products are designed and manufactured for application in ordinary electronic equipments (such as AV equipment,
OA equipment, telecommunication equipment, home electronic appliances, amusement equipment, etc.). If you
(Note 1)
, transport
intend to use our Products in devices requiring extremely high reliability (such as medical equipment
equipment, traffic equipment, aircraft/spacecraft, nuclear power controllers, fuel controllers, car equipment including car
accessories, safety devices, etc.) and whose malfunction or failure may cause loss of human life, bodily injury or
serious damage to property (“Specific Applications”), please consult with the ROHM sales representative in advance.
Unless otherwise agreed in writing by ROHM in advance, ROHM shall not be in any way responsible or liable for any
damages, expenses or losses incurred by you or third parties arising from the use of any ROHM’s Products for Specific
Applications.
(Note1) Medical Equipment Classification of the Specific Applications
JAPAN
USA
EU
CHINA
CLASSⅢ
CLASSⅡb
CLASSⅢ
CLASSⅢ
CLASSⅣ
CLASSⅢ
2.
ROHM designs and manufactures its Products subject to strict quality control system. However, semiconductor
products can fail or malfunction at a certain rate. Please be sure to implement, at your own responsibilities, adequate
safety measures including but not limited to fail-safe design against the physical injury, damage to any property, which
a failure or malfunction of our Products may cause. The following are examples of safety measures:
[a] Installation of protection circuits or other protective devices to improve system safety
[b] Installation of redundant circuits to reduce the impact of single or multiple circuit failure
3.
Our Products are designed and manufactured for use under standard conditions and not under any special or
extraordinary environments or conditions, as exemplified below. Accordingly, ROHM shall not be in any way
responsible or liable for any damages, expenses or losses arising from the use of any ROHM’s Products under any
special or extraordinary environments or conditions. If you intend to use our Products under any special or
extraordinary environments or conditions (as exemplified below), your independent verification and confirmation of
product performance, reliability, etc, prior to use, must be necessary:
[a] Use of our Products in any types of liquid, including water, oils, chemicals, and organic solvents
[b] Use of our Products outdoors or in places where the Products are exposed to direct sunlight or dust
[c] Use of our Products in places where the Products are exposed to sea wind or corrosive gases, including Cl2,
H2S, NH3, SO2, and NO2
[d] Use of our Products in places where the Products are exposed to static electricity or electromagnetic waves
[e] Use of our Products in proximity to heat-producing components, plastic cords, or other flammable items
[f] Sealing or coating our Products with resin or other coating materials
[g] Use of our Products without cleaning residue of flux (even if you use no-clean type fluxes, cleaning residue of
flux is recommended); or Washing our Products by using water or water-soluble cleaning agents for cleaning
residue after soldering
[h] Use of the Products in places subject to dew condensation
4.
The Products are not subject to radiation-proof design.
5.
Please verify and confirm characteristics of the final or mounted products in using the Products.
6.
In particular, if a transient load (a large amount of load applied in a short period of time, such as pulse. is applied,
confirmation of performance characteristics after on-board mounting is strongly recommended. Avoid applying power
exceeding normal rated power; exceeding the power rating under steady-state loading condition may negatively affect
product performance and reliability.
7.
De-rate Power Dissipation (Pd) depending on Ambient temperature (Ta). When used in sealed area, confirm the actual
ambient temperature.
8.
Confirm that operation temperature is within the specified range described in the product specification.
9.
ROHM shall not be in any way responsible or liable for failure induced under deviant condition from what is defined in
this document.
Precaution for Mounting / Circuit board design
1.
When a highly active halogenous (chlorine, bromine, etc.) flux is used, the residue of flux may negatively affect product
performance and reliability.
2.
In principle, the reflow soldering method must be used on a surface-mount products, the flow soldering method must
be used on a through hole mount products. If the flow soldering method is preferred on a surface-mount products,
please consult with the ROHM representative in advance.
For details, please refer to ROHM Mounting specification
Notice-PGA-E
© 2015 ROHM Co., Ltd. All rights reserved.
Rev.001
Datasheet
Precautions Regarding Application Examples and External Circuits
1.
If change is made to the constant of an external circuit, please allow a sufficient margin considering variations of the
characteristics of the Products and external components, including transient characteristics, as well as static
characteristics.
2.
You agree that application notes, reference designs, and associated data and information contained in this document
are presented only as guidance for Products use. Therefore, in case you use such information, you are solely
responsible for it and you must exercise your own independent verification and judgment in the use of such information
contained in this document. ROHM shall not be in any way responsible or liable for any damages, expenses or losses
incurred by you or third parties arising from the use of such information.
Precaution for Electrostatic
This Product is electrostatic sensitive product, which may be damaged due to electrostatic discharge. Please take proper
caution in your manufacturing process and storage so that voltage exceeding the Products maximum rating will not be
applied to Products. Please take special care under dry condition (e.g. Grounding of human body / equipment / solder iron,
isolation from charged objects, setting of Ionizer, friction prevention and temperature / humidity control).
Precaution for Storage / Transportation
1.
Product performance and soldered connections may deteriorate if the Products are stored in the places where:
[a] the Products are exposed to sea winds or corrosive gases, including Cl2, H2S, NH3, SO2, and NO2
[b] the temperature or humidity exceeds those recommended by ROHM
[c] the Products are exposed to direct sunshine or condensation
[d] the Products are exposed to high Electrostatic
2.
Even under ROHM recommended storage condition, solderability of products out of recommended storage time period
may be degraded. It is strongly recommended to confirm solderability before using Products of which storage time is
exceeding the recommended storage time period.
3.
Store / transport cartons in the correct direction, which is indicated on a carton with a symbol. Otherwise bent leads
may occur due to excessive stress applied when dropping of a carton.
4.
Use Products within the specified time after opening a humidity barrier bag. Baking is required before using Products of
which storage time is exceeding the recommended storage time period.
Precaution for Product Label
QR code printed on ROHM Products label is for ROHM’s internal use only.
Precaution for Disposition
When disposing Products please dispose them properly using an authorized industry waste company.
Precaution for Foreign Exchange and Foreign Trade act
Since concerned goods might be fallen under listed items of export control prescribed by Foreign exchange and Foreign
trade act, please consult with ROHM in case of export.
Precaution Regarding Intellectual Property Rights
1.
All information and data including but not limited to application example contained in this document is for reference
only. ROHM does not warrant that foregoing information or data will not infringe any intellectual property rights or any
other rights of any third party regarding such information or data.
2.
ROHM shall not have any obligations where the claims, actions or demands arising from the combination of the
Products with other articles such as components, circuits, systems or external equipment (including software).
3.
No license, expressly or implied, is granted hereby under any intellectual property rights or other rights of ROHM or any
third parties with respect to the Products or the information contained in this document. Provided, however, that ROHM
will not assert its intellectual property rights or other rights against you or your customers to the extent necessary to
manufacture or sell products containing the Products, subject to the terms and conditions herein.
Other Precaution
1.
This document may not be reprinted or reproduced, in whole or in part, without prior written consent of ROHM.
2.
The Products may not be disassembled, converted, modified, reproduced or otherwise changed without prior written
consent of ROHM.
3.
In no event shall you use in any way whatsoever the Products and the related technical information contained in the
Products or this document for any military purposes, including but not limited to, the development of mass-destruction
weapons.
4.
The proper names of companies or products described in this document are trademarks or registered trademarks of
ROHM, its affiliated companies or third parties.
Notice-PGA-E
© 2015 ROHM Co., Ltd. All rights reserved.
Rev.001
Datasheet
General Precaution
1. Before you use our Pro ducts, you are requested to care fully read this document and fully understand its contents.
ROHM shall n ot be in an y way responsible or liabl e for fa ilure, malfunction or acci dent arising from the use of a ny
ROHM’s Products against warning, caution or note contained in this document.
2. All information contained in this docume nt is current as of the issuing date and subj ect to change without any prior
notice. Before purchasing or using ROHM’s Products, please confirm the la test information with a ROHM sale s
representative.
3.
The information contained in this doc ument is provi ded on an “as is” basis and ROHM does not warrant that all
information contained in this document is accurate an d/or error-free. ROHM shall not be in an y way responsible or
liable for an y damages, expenses or losses incurred b y you or third parties resulting from inaccur acy or errors of or
concerning such information.
Notice – WE
© 2015 ROHM Co., Ltd. All rights reserved.
Rev.001
Datasheet
BU97981MUV - Web Page
Buy
Distribution Inventory
Part Number
Package
Unit Quantity
Minimum Package Quantity
Packing Type
Constitution Materials List
RoHS
BU97981MUV
VQFN56AV8080
1000
1000
Taping
inquiry
Yes