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ML610Q428/429 Reference Board User’s Manual
Issue Date: March. 22, 2011
FEBL610Q428/429RB-02
ML610Q428/429ReferenceBoard User’s Manual
NOTICE
No copying or reproduction of this document, in part or in whole, is permitted without the consent of LAPIS Semiconductor Co., Ltd.
The content specified herein is subject to change for improvement without notice.
The content specified herein is for the purpose of introducing LAPIS Semiconductor's products (hereinafter "Products"). If you wish to use any such Product, please be sure to refer to the specifications, which can be obtained from LAPIS Semiconductor upon request.
Examples of application circuits, circuit constants and any other information contained herein illustrate the standard usage and operations of the Products. The peripheral conditions must be taken into account when designing circuits for mass production.
Great care was taken in ensuring the accuracy of the information specified in this document. However, should you incur any damage arising from any inaccuracy or misprint of such information, LAPIS Semiconductor shall bear no responsibility for such damage.
The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products. LAPIS Semiconductor does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by LAPIS Semiconductor and other parties. LAPIS Semiconductor shall bear no responsibility whatsoever for any dispute arising from the use of such technical information.
The Products specified in this document are intended to be used with general-use electronic equipment or devices (such as audio visual equipment, office-automation equipment, communication devices, electronic appliances and amusement devices).
The Products specified in this document are not designed to be radiation tolerant.
While LAPIS Semiconductor always makes efforts to enhance the quality and reliability of its Products, a Product may fail or malfunction for a variety of reasons.
Please be sure to implement in your equipment using the Products safety measures to guard against the possibility of physical injury, fire or any other damage caused in the event of the failure of any Product, such as derating, redundancy, fire control and fail-safe designs. LAPIS Semiconductor shall bear no responsibility whatsoever for your use of any Product outside of the prescribed scope or not in accordance with the instruction manual.
The Products are not designed or manufactured to be used with any equipment, device or system which requires an extremely high level of reliability the failure or malfunction of which may result in a direct threat to human life or create a risk of human injury (such as a medical instrument, transportation equipment, aerospace machinery, nuclear-reactor controller, fuel-controller or other safety device). LAPIS Semiconductor shall bear no responsibility in any way for use of any of the Products for the above special purposes. If a Product is intended to be used for any such special purpose, please contact a ROHM sales representative before purchasing.
If you intend to export or ship overseas any Product or technology specified herein that may be controlled under the Foreign Exchange and the Foreign Trade Law, you will be required to obtain a license or permit under the Law.
Copyright 2008 - 2011 LAPIS Semiconductor Co., Ltd.
ML610Q428/429ReferenceBoard User’s Manual
Preface
This manualdescribes the ML610Q428/429 Reference Board. The following manuals are also available. Read them as necessary.
■ ML610Q428/ML610Q429 User’s Manual Description on the ML610Q428/ML610Q429 ■ uEASE User’s Manual
Description on the on-chip debug tool uEASE.
ML610Q428/429ReferenceBoard User’s Manual
1.Overview
1.1 Features
ML610Q428/429ReferenceBoard is a board for evaluating the function of ML610Q428 or ML610Q429. This board can connect the pin of ML610Q428/429 with a user application system, it can perform the check of a system of operation easily. By using the board with "on-chip debug emulator" (hereinafter referred to "uEASE") not only Software debugging but also writing Flash ROM in the devices are capable.
The hardware specification of this board is shown below.
Embedded microcontroller
・ U1: ML610Q428 or ML610Q429 (The part name is labeled on the solder side of the board.) ・ X1, C5, C6: 32.768KHz resonator and capacitors. ・ PWR: Jumper for input power supply switch ( 3pin pin-header and short pin ) ・ MODE: Jumper for RESET_N pin control switch ( 3pin pin-header and short pin )・ CNUE: Connector for uEASE ( 14pin connector )
Embedded parts
・ C1-C4, C7-C13: Capacitors for power supply and LCD bias generation circuit ・ CNU1 to CNU4: Pads for peripheral board connectors ( 34pin x 4、2.54mm pitch )・ IN0, CS0, RCT0, RS0, RT0, CVR0, IN1, CS1, RS1, RT1, CVR1
Pads for RC oscillation type ADC parts ・ J1: Pads for 1/3 bias circuit of LCD( 2.54mm pitch ) ・ X2, C14, C15: Pads for mounting high-speed clock oscillation circuit parts
Pads for mounting
・ R1 to R11: Pads for opening or short ( 1608 type ) Monitor pads ・ RCM: RC oscillation monitor Operating voltage ・ +1.1V to +3.6V Board size ・ 71.12 x 60.96 mm
This board is made on the assumption that it is used mounting in the user application board. There is a possibility of short the circuit when using it on electroconductive so that the board may have the pattern on the solder side.
Therefore, please use the board on nonconductivity or put the protection parts on the solder side if necessary.
ML610Q428/429ReferenceBoard User’s Manual
1.2 PCB outline drawing
U1
CNU3CNUE
a. PWR
b. MODE
CNU4
CNU1
d. RC_ADC0e. RC_ADC1
X1
c. J1
f. High-speed clock
CNU2
Fig.1 PCB outline drawing
ML610Q428/429ReferenceBoard User’s Manual
2. Function
2.1 PWR Jumper ( a. PWR )
This is a jumper which input power supply. When supplying from uEASE, PWR jumper is set to the uE side. The ability to supply power of the uEASE is +3.3V/100mA. When supplying from CNU4_1pin and CNU4_2pin, PWR jumper is set to the USR side.
PWR
uE
USR
CNUE
13pin
CNU4
1,2pin
ML610Q428VDD
Fig.2 The connection of PWR jumper 【Note】 Notes when the PWR jumper is set to USR side and the uEASE is connected. Turn on the power supply of the peripheral board after starting the uEASE. Moreover, Stop the uEASE after turning off the power supply of the peripheral board.
ML610Q428/429ReferenceBoard User’s Manual
2.2 MODE Jumper ( b. MODE )
This is a jumper which controls the ML610Q438( or ML610Q439 ) RESET_N pin. If you use the uEASE, the MODE jumper is set to the uE side. When it sets to the uE side, a RESET_N pin is controlled from uEASE. Therefore, it decomes impossible to control a RESET_N pin from CNU3_32pin.
MODE
uE
USR
CNUE
5pin
CNU3
32pin
ML610Q428RESET_N
Fig.3 The connection of MODE jumper
ML610Q428/429ReferenceBoard User’s Manual
2.3 J1 Jumper ( c. J1 )
This is jumper which chooses LCD bias. When you use the 1/3 bias, connect J1 jumper after removing C12 capacitor.
ML610Q428J1
1uF
1uF
1uF
1uF
VL1
VL2
VL3
VL4
C10
C11
C12
C13
Fig.4 The connection of BIAS jumper
ML610Q428/429ReferenceBoard User’s Manual
2.4 When you use RC_ADC0 ( d. RC_ADC0 )
(a) Please cut each short pattern of R5, R6, R7, R8 and R9 that is on the back side of this board. If each short pattern is not cut, the RC-ADC0 converter may not have accurate conversion result under the influence of the noise. Please be sure the cut each short pattern.
(b) Please mount parts on the each pad of the IN0, CS0, RCT0, RS0, RT0 and CVR0 pads.
Refer to ML610Q428/ML610Q429 User’s Manual for the parts to mount. The example of processing is shown below.
Jumper CS0 RCT0 RS0 Thermistor CVR0
Cut Pattern
R5-R9
Fig.5 The example of processing of RC_ADC0
ML610Q428/429ReferenceBoard User’s Manual
2.5 When you use RC_ADC1 ( e. RC_ADC1 )
(a) Please cut each short pattern of R1, R2, R3 and R4 that is on the back side of this board. If each short pattern is not cut, the RC-ADC1 converter may not have accurate conversion result under the influence of the noise. Please be sure the cut each short pattern.
(b) Please mount parts on the each pad of the IN1, CS1, RS1, RT1 and CVR1 pads.
Refer to ML610Q428/ML610Q429 User’s Manual for the parts to mount. The example of processing is shown below.
Jumper CS1 RS1 Thermistor CVR1
Cut Pattern
R1-R4
Fig.6 The example of processing of RC_ADC1
ML610Q428/429ReferenceBoard User’s Manual
2.6 When you use the high-speed clock generation circuit ( f. High-speed clock )
Please mount parts on the each pad of the X2, C14 and C15 pads. Please cut each short pattern of R10 and R11if you need. The example of processing of the high-speed clock generation circuit is shown below.
X2 R10
Cut Pattern
Cut Pattern
C14
C15
R11
Fig.7 The example of use the high-speed clock generation circuit
ML610Q428/429ReferenceBoard User’s Manual
3. User Interface
3.1 The user interface of ML610Q428ReferenceBoard
Table1 shows the user interface of reference board which mounted ML610Q428.
Table 1 CNU1-4 of ML610Q428ReferenceBoard Pin CNU1 CNU2 CNU3 CNU4 1 P03 COM23 SEG20 VDD 2 P02 COM22 SEG21 VDD 3 P01 COM21 SEG22 SEG51 4 P00 COM20 SEG23 SEG52 5 NMI COM19 SEG24 SEG53 6 P20 COM18 SEG25 SEG54 7 P21 COM17 SEG26 SEG55 8 P22 COM16 SEG27 SEG56 9 P40 COM15 SEG28 SEG57
10 P41 COM14 SEG29 N.C 11 N.C COM13 SEG30 N.C 12 P42 COM12 SEG31 N.C 13 P43 SEG0 SEG32 N.C 14 P44 SEG1 SEG33 N.C 15 P45 SEG2 SEG34 N.C 16 P46 SEG3 SEG35 COM0 17 P47 SEG4 SEG36 COM1 18 P30 SEG5 SEG37 COM2 19 P31 SEG6 SEG38 COM3 20 P32 SEG7 SEG39 COM4 21 P33 SEG8 SEG40 COM5 22 P34 SEG9 SEG41 COM6 23 P35 SEG10 SEG42 COM7 24 N.C SEG11 SEG43 COM8 25 N.C SEG12 SEG44 COM9 26 N.C SEG13 SEG45 COM10 27 N.C SEG14 SEG46 COM11 28 N.C SEG15 SEG47 N.C 29 N.C SEG16 SEG48 N.C 30 N.C SEG17 SEG49 N.C 31 P10 SEG18 SEG50 N.C 32 P11 SEG19 RESET_N N.C 33 VSS VSS VSS VSS 34 VSS VSS VSS VSS
ML610Q428/429ReferenceBoard User’s Manual
3.2 The user interface of ML610Q429ReferenceBoard
Table2 shows the user interface of reference board which mounted ML610Q429.
Table 2 CNU1-4 of ML610Q429ReferenceBoard Pin CNU1 CNU2 CNU3 CNU4 1 P03 PA0 SEG20 VDD 2 P02 PA1 SEG21 VDD 3 P01 PA2 SEG22 SEG51 4 P00 PA3 SEG23 SEG52 5 NMI PA4 SEG24 SEG53 6 P20 PA5 SEG25 SEG54 7 P21 N.C SEG26 SEG55 8 P22 N.C SEG27 SEG56 9 P40 N.C SEG28 SEG57
10 P41 N.C SEG29 SEG58 11 N.C N.C SEG30 SEG59 12 P42 N.C SEG31 SEG60 13 P43 SEG0 SEG32 SEG61 14 P44 SEG1 SEG33 SEG62 15 P45 SEG2 SEG34 SEG63 16 P46 SEG3 SEG35 COM0 17 P47 SEG4 SEG36 COM1 18 P30 SEG5 SEG37 COM2 19 P31 SEG6 SEG38 COM3 20 P32 SEG7 SEG39 COM4 21 P33 SEG8 SEG40 COM5 22 P34 SEG9 SEG41 COM6 23 P35 SEG10 SEG42 COM7 24 P07 SEG11 SEG43 N.C 25 P06 SEG12 SEG44 N.C 26 P05 SEG13 SEG45 N.C 27 N.C SEG14 SEG46 N.C 28 N.C SEG15 SEG47 N.C 29 P04 SEG16 SEG48 N.C 30 N.C SEG17 SEG49 N.C 31 P10 SEG18 SEG50 N.C 32 P11 SEG19 RESET_N N.C 33 VSS VSS VSS VSS 34 VSS VSS VSS VSS
ML610Q428/429ReferenceBoard User’s Manual
4. Schematics and PCB dimensional drawing
The this board schematics and the demensional drawing are shown as follows.
IN
GND
GND
GN
DG
ND
I/O
INININ
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OU
T
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
OUT
TITLE
2
D
4
3
2
1
CBA
C
1
3
4
A B D
APPLICATION
DWG NO
REVSHEETDRAWN By
LAPIS Semiconductor Co., Ltd.
OU
T
GND
GN
DG
ND
OUT
OUT
OUT
I/O
I/O
IN
IN
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
GN
D
ININ
GND
VD
DL
GNDGND
IN
DV
DD
DV
DD
XTAL
1
1
XTA
L
I/O
0
0
0
0
0
0
0
01
1
0
0
2
12
ML610Q428/429
TQFP128
C2C1
P42XT1
VDDXVSS_117
XT0
VDDLVDD_115
P35P33
TEST
P32P34
P30P47
P31
P46P45
RESET_NVPP
P44
P40
P21P20
P22
CO
M23_P
07
NC
_95
CO
M22_P
06
CO
M20_P
04
CO
M19_P
A5
CO
M18_P
A4
CO
M17_P
A3
CO
M16_P
A2
CO
M15_P
A1
CO
M14_P
A0
CO
M13_S
EG
63
CO
M11_S
EG
61
CO
M12_S
EG
62
CO
M10_S
EG
60
CO
M9_S
EG
59
CO
M8_S
EG
58
SEG
57
SEG
56
SEG
55
SEG
54
SEG
53
SEG41SEG42
SEG37SEG38SEG39SEG40
SEG35SEG36
SEG29SEG30SEG31SEG32SEG33SEG34
SEG
10
SEG
4SEG
5SEG
6SEG
7SEG
8SEG
9
SEG11
C3
VL4
CO
M3
SEG
3
SEG27SEG28
SEG
51
SEG
52
P01
P02
P03
NM
IV
SS_9
P10
NC
_11
P11
P00
C4
NC
_2
VL1P43
SEG
50
SEG
49
SEG
48
SEG
47
SEG
46
SEG
45
SEG
44
SEG
43
CO
M5
SEG19SEG20SEG21SEG22SEG23SEG24SEG25SEG26
SEG12SEG13SEG14SEG15SEG16SEG17SEG18
CO
M6
CO
M7
VD
D_1
3
CO
M1
SEG
0SEG
1SEG
2
CO
M0
CO
M4
CO
M2
CO
M21_P
05
P41
VL2VL3
2/3C
2/3C
2/3C
2/3C
2/3C
2/3C
2/3C
2/3C
2/3C
2/1B
2/1B
2/1B
2/1B
2/1B
2/1B
2/1B
2/1B
2/1B
2/1B
2/1B
2/1B
2/2A
1.01 of 2
ML610Q428/429 Reference Board
ML610Q428/429
QTS-11525
P06
P05
P04
PA
5/C
OM
18
PA
4/C
OM
19
SEG
58
SEG
59
SEG
60
SEG
61
SEG
62
SEG
63
PA
0/C
OM
23
PA
1/C
OM
22
PA
2/C
OM
21
PA
3/C
OM
20
P07
2/1B
2/2A
2/1B
2/2A
2/1B
2/2A
2/1B
2/1B
2/3C
2/3C
Only
for
ML610Q
429
The pattern of "Only for ML610Q428" is cut by the reference board which embedded ML610Q429.
The pattern of "Only for ML610Q429" is cut by the reference board which embedded ML610Q428.
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
Only
for
ML610Q
429
Only
for
ML610Q
428
PA
0/C
OM
23
PA
1/C
OM
22
PA
2/C
OM
21
PA
3/C
OM
20
PA
4/C
OM
19
PA
5/C
OM
18
CO
M17
CO
M16
CO
M15
CO
M14
CO
M13
CO
M11
CO
M10
CO
M9
CO
M8
128127
121120
118117
119
116115
113112
114
111110
108107
109
106105
103102
104
100
9897
99
96
95
94
92
91
90
89
88
87
86
85
83
84
82
81
80
79
78
77
76
75
6364
59606162
5758
515253545556
32
26
27
28
29
30
31
33
1
126
17
25
4950
73
74
5 6 7 8 910
11
12432
123122
72
71
70
69
68
67
66
65
19
4142434445464748
34353637383940
20
21
13
15
22
23
24
14
18
16
93
101
124125
U1
C13 1UF
1
C11 1UF
1 2R9
0
1 2R8
20
12
C5
12C4
0.1UFRCM
1 2CVR0
1 2RS0
1 2CS0
1 2R1
12
J1
2
C14
2R11
1 2R10
1 2R7
1 2R6
1 2R2
1 2R3
1 2R4
1 2R5
2
1
X2
2
C15
2
C6
2
1
X1
12
C12 1UF
12
C10 1UF
1 2RT0
12
C9
1U
F12
C8
1U
F12
C7
0.1
UF
12
C1
1U
F
1 2
C31UF
12
C2
1U
F
1 2CS1
1 2IN1
20
1 2RS1
1 2RT1
1 2IN0
1 2CVR1
1 2RCT0
SEG422/2C
SEG412/2C2/2C
SEG40SEG39
2/2C2/2C
SEG38SEG372/2C
2/2CSEG36SEG35
2/1C
SEG342/1C2/1C
SEG33SEG32
2/1C2/1C
SEG31SEG302/1C
2/1CSEG29SEG28
2/1C2/1C
SEG27
P00
2/1A
P01
2/1A
P02
2/1A
P03
2/1A
NM
I2/1A
2/2AP10
2/2AP11
2/2C
SEG
43
2/2C
SEG
44
2/2C
SEG
45
SEG
46
2/2C
2/2C
SEG
47
SEG
48
2/2C
SEG
49
2/2C
2/2C
SEG
50
SEG
51
2/3C
2/3C
SEG
52
2/3C
SEG
53
SEG
54
2/3C
2/3C
SEG
55
SEG
56
2/3C
SEG
57
2/3C
SEG262/1C2/1C
SEG25SEG24
2/1C2/1C
SEG23SEG22
2/1C2/1C
SEG21SEG20
2/1C2/2B SEG192/2B
SEG18SEG17
2/2B2/2B
SEG16SEG15
2/2B2/2B
SEG14SEG13
2/2B2/2B SEG12
SEG112/2B
CO
M0
2/3C
CO
M1
2/3C
2/3C
CO
M2
CO
M3
2/3C
2/3C
CO
M4
CO
M5
2/3C
2/3C
CO
M6
2/3C
CO
M7
SEG
02/1B
2/1B
SEG
1SEG
22/1B
2/1B
SEG
3SEG
42/2B
SEG
52/2B
2/2B
SEG
6SEG
72/2B
2/2B
SEG
8SEG
92/2B
2/2B
SEG
10
P432/1A
P422/1A
TEST2/3A
P352/2A
P332/2A
P322/2A
P342/2A
P312/2A
P302/2A
P472/2A
P462/1A
P452/1A
P442/1A
RESET_N2/3C
VPP2/3A
P41 2/1AP40
2/1AP22
2/1AP21
2/1AP202/1A
CO
M12
OUT
OUT
OUT
OUT
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
OUT
OUT
IN
IN
IN
HIF3FC-34DA-2_54DSA HIF3FC-34DA-2_54DSA
HIF3FC-34DA-2_54DSA
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
IN
OUT
OUT
OUT
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
GND
GNDGNDGND
GND
I/O
I/O
TITLE
2
D
4
3
2
1
CBA
C
1
3
4
A B D
APPLICATION
DWG NO
REVSHEETDRAWN By
LAPIS Semiconductor Co., Ltd.
I/O
I/O
OUT
IN
OUT
IN
HIF3FC-34DA-2_54DSA
VDDLDVDD
IN
IN
OUT
A2-3PA
-2_5
4D
SA
OUT
A2-3PA
-2_5
4D
SA
DVDD
HIF3FC-14PA-2_54DSA
1/1A1/1A
1/1A
1/1C1/1C1/1C1/1C1/1C
uE
(NC)
(NC)(NC)(NC)(NC)
VTref
VPP
SCLK
SDATA
VDDL
UVDD_O
1.02 of 2
(NC)
ML610Q428/429 Reference Board
ML610Q428/429
QTS-11525
(NC)
(NC)
USRUSR
1/1C
uE
(NC)
1/1A
PA0/COM23 1/1A1/1A
PA1/COM22
P04
3
5
7
9
11
13
12
4
6
8
10
12
14
CNUE
SEG58
13
2
PWR
1/2DSEG50
13
2
MODE
RESET_N1/2C
PA2/COM211/1A1/1A
PA3/COM20
1/1BPA5/COM18
1/1APA4/COM19
P03 1/3C
17
123456789
10111213141516
1819202122232425262728293031323334
CNU3
VPP1/2C
COM16 1/1B
TEST1/3B
1/3CCOM1
1/3BP35
P411/2C
P421/4B
1/3CP00
P211/2C
P22 1/2C
P201/2C
1/3BP34
1/3BP33P32
1/3BP31 1/3BP30
1/3BP47
1/2BP46
1/2BP45 1/2BP44
1/2BP43
1/4B
P401/2C
P011/4C
P021/3C
1/3DSEG0
1/3DSEG1SEG2 1/3D
SEG31/3D1/3D
SEG4SEG5
1/3D1/3D
SEG6SEG7
1/3D1/3D
SEG8SEG9
1/3D1/3D
SEG10SEG11
1/3D1/3D
SEG12SEG13 1/3D
1/3DSEG14SEG15
1/3D1/3D
SEG16SEG17
1/3D1/3D
SEG18SEG19
1/3D
1/3DSEG20SEG21
1/3D1/3D
SEG22SEG23
1/3D1/3D
SEG24SEG25
1/3D1/3D
SEG26SEG27 1/3D
1/3DSEG28
1/3DSEG29SEG30
1/2D1/2D
SEG31SEG32
1/2D1/2D
SEG33SEG34 1/2D
SEG351/2D1/2D
SEG361/2D
SEG37SEG38
1/2D1/2D
SEG39
COM01/3C
1/3CCOM3
1/3CCOM2
COM41/3C
1/1BCOM17
17
123456789
10111213141516
1819202122232425262728293031323334
CNU4
17
123456789
10111213141516
1819202122232425262728293031323334
CNU2
17
123456789
10111213141516
1819202122232425262728293031323334
CNU1
1/1BCOM15
1/1BCOM14COM13
1/1B1/1C
COM12
1/4CP11P10
1/4C
1/2DSEG40SEG41
1/2D
SEG421/2D1/2D
SEG43SEG44
1/2D
SEG45 1/2D1/2D
SEG461/2D
SEG47SEG48
1/2D
SEG491/2D
1/2DSEG52SEG51
1/2D
1/2DSEG54
1/2DSEG53
SEG55 1/2D
SEG571/2C1/2C
SEG56
SEG59SEG60
SEG62SEG61
SEG63
COM61/3D1/3CCOM5
COM81/1C
COM71/3D
1/1CCOM9
1/1CCOM11COM10
1/1C
P05P06P07
NMI1/3C
LAPIS Semiconductor Co., Ltd.
ML610Q4xx Reference BoardDimensional drawing
58.42
1 233 34 12
34
33
12
33
34
1234
33
CNU1
CN
U2
CN
U4
CNU3
12
1314
USR
uE
10.16
60.96
2.54
CN_uE15.2
4
ML610Q4xx Reference Board TOP_VIEW
15.2
4
2.5
4
71.1
2
2.54
2.54
60.96
10.16
55.8
8
68.5
8
PW
R
MO
DE