A
1
2
3
4
5
6
7
8
9
10
N
M
L
K
J
I
H
G
F
E
D
C
B
A
1
2
3
4
5
6
7
8
9
10
K
J
I
H
G
F
E
D
C
B
L
N
M
89
RX-V377/HTR-3067
A/D IN
E
M
A
9
EMDQM1
A
U
P
_
B
C
K
D
S
P
_
N
_
R
D
Y
TI_SDSB
E
M
A
1
DIR_SDO
/
E
M
R
A
S
EMA9
EMCLK
EMBA0
A
U
P
_
W
C
K
D
S
P
_
N
_
C
S
A
U
P
_
S
D
0
EMD4
HDM_WCK/DR0
T
M
S
N_TRST
DIR_WCK
EMD5
DSP_N_RST
T
I
_
S
D
F
T
I
_
S
D
S
B
HDM_SPF/DL2
TDO
T
I
_
S
D
S
T
D
O
TCK
EMD13
EMA11
S
F
L
_
N
_
C
S
S
F
L
_
N
_
C
S
TDI
DIR_MCK1
EMD12
EMD6
EMA0
DIR_BCK
EMD0
EMD7
EMD0
DSP_SCK
EMA6
EMD15
EMD3
E
M
A
8
DSP_MOSI
EMBA1
EMD14
EMD2
EMA2
E
M
A
7
DSP_MISO
EMA5
EMD13
EMD1
E
M
A
6
DSP_N_RDY
EMD7
TI_WCK
EMD12
DIR_SDO
E
M
A
5
DSP_N_CS
DSP_N_RST
EMCKE
E
M
A
4
EMDQM0
T
C
K
T
C
K
EMD1
S
F
L
_
D
I
E
M
A
0
HDM_SD3/DR2
EMD4
EMDQM1
HDM_SD2/DL1
/EMWE
D
S
P
_
N
_
I
N
T
EMD3
E
M
B
A
1
/EMWE
EMCLK
HDM_SD1/DR1
/EMCAS
D
S
P
_
F
M
T
EMD2
EMA7
EMDQM0
EMA1
E
M
B
A
0
DSP_FMT
EMD10
EMD6
/EMRAS
EMA4
T
D
I
EMD9
/EMCS
AUP_BCK
EMD8
TMS
/EMCAS
DSP_N_INT
AUP_WCK
EMD15
T
I
_
S
D
C
EMD11
D
S
P
_
S
C
K
D
S
P
_
S
C
K
EMD5
DIR_WCK
EMD14
EMD11
EMA3
TI_BCK
AUP_SD0
E
M
A
1
0
T
I
_
B
C
K
EMD10
TI_SDF
EMA8
D
S
P
_
M
I
S
O
EMD9
E
M
A
3
EMA10
E
M
A
1
1
D
S
P
_
M
O
S
I
T
I
_
W
C
K
EMD8
N
_
T
R
S
T
TI_SDS
E
M
A
2
/
E
M
C
S
D
I
R
_
M
C
K
1
HDM_SD1/DR1
HDM_SD2/DL1
HDM_SD3/DR2
HDM_SPF/DL2
HDM_WCK/DR0
HDM_WCK/DR0
TI_SDC
EMCKE
S
F
L
_
C
L
K
S
F
L
_
C
L
K
S
F
L
_
D
O
DIR_BCK
R2402
100K
R2422
10K
AUP_SD0
C2450
0.1/10(BJ)
C2412
0.1/10(BJ)
C
2
4
1
9
n
o
_
u
s
e
C2404
18P(CH)
C
2
4
2
6
0
.
1
/
1
0
(
B
J
)
R
2
4
0
5
n
o
_
u
s
e
DSP_N_CS
HDM_SD1/DR1
+3.3DSP1
C2452
0.1/10(BJ)
TI_BCK
R
2
4
2
3
1
0
K
+3.3D
C
2
4
2
2
0
.
1
/
1
0
(
B
J
)
C
2
4
3
4
0
.
1
/
1
0
(
B
J
)
R
2
4
3
9
4
7
X
4
DGND
C2471
0.1/10(BJ)
+1.2DSP
C2413
0.1/10(BJ)
C2455
0.1/10(BJ)
DGND
R
2
4
2
5
1
0
K
DSP_MISO
C2415
0.1/10(BJ)
C
2
4
2
5
0
.
1
/
1
0
(
B
J
)
R2445
47X4
R2444
47X4
CB241
no_use
DSP_N_RST
C
2
4
3
2
0
.
1
/
1
0
(
B
J
)
C2411
0.1/10(BJ)
DIR_MCK1
DIR_SDO
C2449
0.1/10(BJ)
TI_SDF
R2413
no_use
C
2
4
4
1
0
.
1
/
1
0
(
B
J
)
DGND
R
2
4
3
6
1
5
0
X
4
C2409
0.1/10(BJ)
C
2
4
2
8
0
.
1
/
1
0
(
B
J
)
DSP_N_INT
C2408
0.1/10(BJ)
DSP_MOSI
C2410
0.1/10(BJ)
DIR_WCK
C2458
0.1/10(BJ)
C2457
0.1/10(BJ)
C
2
4
2
7
0
.
1
/
1
0
(
B
J
)
C
2
4
2
4
0
.
1
/
1
0
(
B
J
)
R2409
no_use
DSP_N_RDY
R2443
47X4
C2421
no_use
C
2
4
4
4
n
o
_
u
s
e
C2459
0.1/10(BJ)
R
2
4
1
8
3
3
R
2
4
1
5
1
0
0
C2447
0.1/10(BJ)
C2468
0.1/10(BJ)
AUP_BCK
L2402
BKP1005HS680-T
R2401
100
R2428
4.7K
C2416
0.1/10(BJ)
C2466
0.1/10(BJ)
C2443
no_use
C2470
0.1/10(BJ)
DSP_SCK
C
2
4
4
5
n
o
_
u
s
e
XL241
20MHZ
1
2
3
4
0
J2402
C2439
no_use
TI_WCK
C
2
4
0
3
4
7
0
P
(
B
)
HDM_SPF/DL2
D
G
N
D
R
2
4
1
7
3
3
L
2
4
0
3
B
L
M
2
1
P
G
6
0
0
S
N
1
D
HDM_SD3/DR2
C2456
0.1/10(BJ)
+1.2DSP
R
2
4
1
6
n
o
_
u
s
e
R2442
47X4
+3.3DSP1
R
2
4
3
7
4
7
X
4
C2414
0.1/10(BJ)
C2451
0.1/10(BJ)
C
2
4
3
3
0
.
1
/
1
0
(
B
J
)
C
2
4
3
5
0
.
1
/
1
0
(
B
J
)
C
2
4
3
6
0
.
1
/
1
0
(
B
J
)
C
2
4
3
1
0
.
1
/
1
0
(
B
J
)
R
2
4
0
8
4
.
7
K
L
2
4
0
4
B
K
P
1
0
0
5
H
S
6
8
0
-
T
HDM_SD2/DL1
R2441
47X4
R
2
4
4
0
4
7
X
4
C2407
0.01/16(B)
C2448
0.1/10(BJ)
C
2
4
4
2
0
.
1
/
1
0
(
B
J
)
TI_SDS
C2402
1000P(B)
C2454
0.1/10(BJ)
C2437
no_use
C
2
4
3
8
0
.
1
/
1
0
(
B
J
)
DIR_BCK
C2467
0.1/10(BJ)
R
2
4
0
6
n
o
_
u
s
e
R
2
4
3
8
4
7
X
4
C
2
4
2
3
0
.
1
/
1
0
(
B
J
)
C2406
0.1/10(BJ)
DGND
TI_SDSB
C2417
0.1/10(BJ)
C2446
0.1/10(BJ)
C2464
0.1/10(BJ)
R2421
10K
+3.3DSP1
R
2
4
0
4
1
M
L2401
BKP1005HS680-T
AUP_WCK
R2427
no_use
R
2
4
3
5
4
7
X
4
+3.3DSP1
C2430
no_use
TI_SDC
R
2
4
1
9
3
3
C2405
18P(CH)
C
2
4
4
0
0
.
1
/
1
0
(
B
J
)
C2465
0.1/10(BJ)
DSP_FMT
C2453
0.1/10(BJ)
C
2
4
2
9
0
.
1
/
1
0
(
B
J
)
HDM_WCK/DR0
VCC
DQ0
VCCQ
DQ1
DQ2
VSSQ
DQ3
DQ4
VCCQ
DQ5
DQ6
VSSQ
DQ7
VCC
DQML
WE
CAS
RAS
CS
A13/BA0
A12/BA1
A10/AP
A0
A1
1 A6
2 A7
3 A8
4 A9
5 A11
6 NC
7 CKE
8 CLK
9 DQMU
0 NC
1 VSS
2 DQ8
3 VCCQ
4 DQ9
5 DQ10
6 VSSQ
7 DQ11
8 DQ12
9 VCCQ
0 DQ13
1 DQ14
2 VSSQ
3 DQ15
4 VSS
A2
VCC
8 VSS
0 A5
A3
9 A4
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
R2412
33X4
R
2
4
1
0
3
3
X
4
R
2
4
1
1
3
3
X
4
C
2
4
6
0
1
0
/
1
0
C
2
4
6
1
1
0
/
1
0
C
2
4
6
2
1
0
/
1
0
C
2
4
6
3
1
0
/
1
0
C2469
10/10
R2429
4.7KX4
I
C
2
4
2
W
2
5
Q
8
0
B
V
S
S
I
G
/
C
S
2
D
0
/
W
P
G
N
D
D
I
C
L
K
/
H
O
L
D
V
C
C
FL/FR
E
M
B
_
A
[
6
]
E
M
A
_
O
E
EMB_D[11]
SBL/SBR
CVDD
G
P
2
[
6
]
V e n d e r
E
M
B
_
R
A
S
U
H
P
I
_
H
R
D
Y
C
V
D
D
EMB_D[9]/
D
G
N
D
X 9 6 2 5 C 0
NC
Y E 0 0 5 A 0
E
M
B
_
A
[
1
0
]
C
V
D
D
C
V
D
D
A
X
R
0
[
2
]
W 2 5 Q 8 0 B V S S I G
DVDD
E
M
B
_
A
[
4
]
A
X
R
0
[
0
]
T
C
K
DVDD
A
X
R
0
[
4
]
AXR1[8]
EMB_D[2]
A
X
R
0
[
3
]
T
D
I
CVDD
A
H
C
L
K
X
0
EMB_D[3]
USB0_DP
CVDD
TRST
USB0_VDDA33
AXR1[3]
EMB_D[4]
E
M
B
_
A
[
8
]
A
M
U
T
E
1
DVDD
S e r i a l F l a s h M e m o r y
E
M
B
_
A
[
9
]
EMB_D[5]
D
G
N
D
EMB_D[13]
OSCIN
EMB_D[6]
EMB_D[7]
6 4 M b i t
OSCOUT
E
M
B
_
A
[
0
]
T
M
S
CVDD
AXR1[1]
D
V
D
D
D
G
N
D
Z E N T E L
N
_
T
R
S
T
EMB_WE_DQM[0]
CVDD
T
D
O
DVDD
RSV2
EMB_WE_DQM[1]
D
V
D
D
EMB_WE
S
P
I
0
_
S
I
M
O
[
0
]
USB0_VDDA18
DVDD
S
P
I
0
_
S
O
M
I
[
0
]
DVDD
D
V
D
D
A
C
L
K
R
0
K
E
Y
EMB_CAS
E
M
B
_
A
[
5
]
S
P
I
1
_
C
L
K
A
X
R
0
[
1
1
]
AHCLKX1
PLL0_VDDA
CVDD
S
P
I
1
_
S
I
M
O
[
0
]
D
V
D
D
EMA_WE
S
P
I
1
_
S
O
M
I
[
0
]
EMB_D[14]
ACLKX1
I C 2 4 3 a l t e r n a t e t h r e e p r o d u c t s b e l o w .
EMA_D[7]
S
P
I
0
_
E
N
A
DVDD
TDO
CVDD
DVDD
S
P
I
0
_
C
L
K
P a r t T y p e
EMB_D[15]
CVDD
E
M
B
_
A
[
7
]
EMB_D[10]
E S M T
W 9 8 6 4 G 6 J H - 6
EMA_D[6]
S
P
I
0
_
S
C
S
[
0
]
A
X
R
0
[
1
]
E
M
B
_
C
S
[
0
]
E
M
B
_
B
A
[
0
]
EMB_D[0]
W I N B O N D
t
o
0
0
1
.
s
h
t
(
H
D
M
I
)
EMA_D[5]
S
P
I
1
_
S
C
S
[
0
]
EMB_D[1]
PLL0_VSSA
C
V
D
D
Y D 7 6 2 A 0
P
D
(
+
3
.
3
V
)
E
M
B
_
A
[
3
]
A
X
R
0
[
8
]
DVDD
CVDD
S
P
I
1
_
E
N
A
DVDD
M 1 2 L 6 4 1 6 4 A - 5 T G 2 Y
( 8 M b i t s )
A
C
L
K
X
0
EMA_D[4]
A
X
R
1
[
1
1
]
GP7[14]
EMA_D[3]
A
X
R
1
[
1
0
]
C
V
D
D
AXR1[4]
CVDD
A
F
S
R
0
A 3 V 6 4 S 4 0 G T P - 6 0
DVDD
U
A
R
T
0
_
T
X
D
DVDD
E N 2 5 Q 8 0 A - 1 0 0 H I P
SRL/SRR
B l a n k p r o d u c t o f I C 2 4 2 i s a a l t e r n a t e
o f t w o p r o d u c t s b e l o w .
USB0_DM
P a r t T y p e
EMA_D[2]
U
A
R
T
0
_
R
X
D
D
V
D
D
t
o
0
0
4
.
s
h
t
(
D
I
R
&
P
O
W
E
R
)
EMA_D[1]
A
X
R
1
[
0
]
P a r t N o .
D
V
D
D
E
M
A
_
D
[
0
]
SERIAL FLASH BOOT
A
F
S
X
0
C
V
D
D
E
M
A
_
A
[
1
2
]
USB0_VDDA12
E
M
A
_
A
[
1
1
]
TCK
E
M
A
_
A
[
9
]
ACLKR1
A
X
R
0
[
1
0
]
E
M
A
_
A
[
8
]
AFSX1
D
V
D
D
E
M
B
_
A
[
1
2
]
E
M
A
_
A
[
7
]
E
M
B
_
A
[
1
1
]
E
M
A
_
A
[
6
]
EMB_SDCKE
AXR1[6]
E
M
B
_
A
[
1
]
E
M
A
_
A
[
5
]
A
X
R
0
[
5
]
D
V
D
D
E
M
A
_
A
[
4
]
E O N
RESET
C
V
D
D
Y D 4 8 7 C 0
AFSR1
E
M
A
_
A
[
3
]
D
G
N
D
E
M
A
_
A
[
2
]
D
V
D
D
T
C
K
_
R
E
T
E
M
A
_
A
[
1
]
TMS
V e n d e r
A
X
R
0
[
7
]
E
M
A
_
A
[
0
]
RTC_XI
A
X
R
0
[
6
]
S D R A M
RTC_CVDD
NC
A
H
C
L
K
R
0
E
M
A
_
A
[
1
0
]
W I N B O N D
EMB_D[8]
X Z 4 1 4 F 0
E
M
B
_
A
[
2
]
E
M
A
_
B
A
[
1
]
AXR1[7]
CVDD
E
M
B
_
B
A
[
1
]
AXR1[5]
OSCVSS
D
V
D
D
EMB_CLK
E
M
A
_
B
A
[
0
]
P a r t N o .
C/SW
AXR1[2]
G
P
2
[
5
]
EMB_D[12]
TDI
A
X
R
0
[
9
]
D
A
C
_
F
L
T
)
U
P
C
(
t
h
s
.
2
0
0
o
t
)
R
E
W
O
P
&
R
I
D
(
t
h
s
.
4
0
0
o
t
Written by YES:YG041C0
VDD
A3
A2
A1
A0
A10/AP
A12
A13
CS
RAS
CAS
WE
LDQM
VDD
VSSQ
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
VDDQ
VDDQ
VSSQ
DQ0
VDD
VSS
A4
A5
A6
A7
A8
A9
A11
NC
CKE
CLK
UDQM
NC
VSS
VDDQ
DQ14
DQ13
DQ12
DQ11
DQ10
DQ9
DQ8
VSSQ
VSSQ
VDDQ
DQ15
VSS
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
IC243
: M12L64164A-5TG
1M x 16-bit x 4 banks synchronous DRAM
CLK
CS
RAS
CAS
WE
C
ommand Decoder
C
ontr
ol Logic
Latch Cir
cuit
Input and Output
Buf
fer
R
ow Decoder
Bank A
Sense Amplifier
Column Decoder
Data Control Circuit
L(U)DQM
DQ
CKE
Address
Clock
Generator
Row
Address
Buffer
Column
Address
Buffer
and
and
Refresh
Counter
Refresh
Counter
Mode
Register
Bank B
Bank C
Bank D
IC242
: W25Q80BVSSIG
8 Mbit serial flash memory
Block Segmentation
SFDP Register
xxFF00h
Sector 15 (4KB)
Sector 14 (4KB)
Sector 13 (4KB)
xxEF00h
xxDF00h
xxE000h
xxD000h
.
.
.
.
.
.
.
.
.
.
.
.
.
.
.
xxF000h
xxFFFFh
000000h
0000FFh
xxEFFFh
xxDFFFh
xxE0FFh
xxD0FFh
.
.
.
xxF0FFh
xx2F00h
Sector 2 (4KB)
Sector 1 (4KB)
Sector 0 (4KB)
Write Control
Logic
Status
Register
Page Address
Latch / Counter
High Voltage
Generators
SPI
Command
and
Control Logic
/HOLD(IO3)
xx1F00h
xx0F00h
xx1000h
xx0000h
.
.
.
xx2000h
xx2FFFh
xx1FFFh
xx0FFFh
xx10FFh
xx00FFh
.
.
.
xx20FFh
Security Register 1 - 3
003000h
002000h
001000h
0030FFh
0020FFh
0010FFh
1FFF00h
1F0000h
Block 15 (64KB)
Block 8 (64KB)
Block 7 (64KB)
Block 4 (64KB)
Block 3 (64KB)
Block 0 (64KB)
Column Decode
And 256-Byte Page Buffer
.
1FFFFFh
1F00FFh
.
10FF00h
100000h
.
08FFFFh
0800FFh
.
0FFF00h
0F0000h
.
07FFFFh
0700FFh
.
04FF00h
040000h
.
04FFFFh
0400FFh
.
00FF00h
000000h
Beginning
Page Address
Ending
Page Address
.
00FFFFh
0000FFh
.
03FF00h
030000h
.
03FFFFh
0300FFh
.
Byte Address
Latch / Counter
Data
/WP(IO2)
DI(IO0)
DO(IO1)
/CS
CLK
Write Protect Logic and Row Decode
W25Q16CV
VCC
/CS
1
2
3
4
8
7
6
5
DO(IO
1
)
/WP(IO
2
)
GND
/HOLD(IO
3
)
CLK
DI(IO
0
)
to DIGITAL 2/5
to DIGITAL 1/5
to DIGITAL 4/5
to DIGITAL 4/5
SDRAM 64 Mbit
D I G I T A L 3 : D S P
IC/CB/XL:241-
OHTER :2401-
N O T I C E
U.S.A
G
CANADA
STANDARD
L
CHINA
AUSTRALIA
SINGAPORE
KOREA
GENERAL
U
C
T
A
K
R
JAPAN
(model)
B
BRITISH
J
SOUTH EUROPE
E
V
TAIWAN
F
RUSSIAN
P
LATIN AMERICA
S
BRAZIL
H
THAI
RESISTOR
REMARKS
NO MARK
PARTS
NAME
CARBON
CARBON
METAL
METAL
METAL
FIRE
CEMENT
SEMI
FILM RESISTOR
FILM RESISTOR
OXIDE FILM RESISTOR
FILM RESISTOR
PLATE RESISTOR
PROOF CARBON FILM RESISTOR
MOLDED RESISTOR
VARIABLE RESISTOR
(P=5)
(P=10)
CHIP RESISTOR
REMARKS
CAPACITOR
PARTS NAME
NO
NO
MARK
MARK
ELECTROLYTIC
CAPACITOR
CERAMIC CAPACITOR
POLYESTER FILM CAPACITOR
POLYSTYRENE FILM CAPACITOR
MICA CAPACITOR
POLYPROPYLENE
FILM CAPACITOR
SEMICONDUCTIVE CERAMIC CAPACITOR
P
TANTALUM CAPACITOR
TUBULAR
S
CAPACITOR
CERAMIC
FILM
SULFIDE
POLYPHENYLENE
CAPACITOR
No replacement part available.
RX-V377/HTR-3067
DIGITAL 3/5
★
All voltages are measured with a 10M
Ω
/V DC electronic voltmeter.
★
Components having special characteristics are marked
⚠
and must be replaced
with parts having specifications equal to those originally installed.
★
Schematic diagram is subject to change without notice.
●
電圧は、内部抵抗
10M
Ωの電圧計で測定したものです。
●
⚠印のある部品は、安全性確保部品を示しています。部品の交換が必要な場合、
パーツリストに記載されている部品を使用してください。
●
本回路図は標準回路図です。改良のため予告なく変更することがあります。
Details of colored lines
Red / full line:
Power supply (+)
Red /dashed line: Power supply (-)
Orange:
Signal detect
Yellow:
Clock
Green:
Protection detect
Brown:
Reset signal
Blue:
Panel key input
Summary of Contents for HTR-3067
Page 6: ...6 RX V377 HTR 3067 RX V377 HTR 3067 RX V377 K model RX V377 A model RX V377 B G F models ...
Page 7: ...7 RX V377 HTR 3067 RX V377 HTR 3067 RX V377 L model RX V377 H model RX V377 J model ...
Page 8: ...8 RX V377 HTR 3067 RX V377 HTR 3067 HTR 3067 U C models HTR 3067 R S models HTR 3067 T model ...
Page 9: ...9 RX V377 HTR 3067 RX V377 HTR 3067 HTR 3067 K model HTR 3067 A model HTR 3067 G F models ...
Page 10: ...10 RX V377 HTR 3067 RX V377 HTR 3067 HTR 3067 L model HTR 3067 H model HTR 3067 J model ...
Page 11: ...11 RX V377 HTR 3067 RX V377 HTR 3067 REMOTE CONTROL PANEL Remote control sheet T model RAV521 ...
Page 70: ...70 RX V377 HTR 3067 RX V377 HTR 3067 MEMO ...
Page 122: ...RX V377 HTR 3067 ...