rm2010 service manual 100302.pd - Proson · 2016-10-22 · Tuner Board (RFAmp, Osc, Mix, IFAmp...
55
MODEL: RM2010 Service Manual
Transcript of rm2010 service manual 100302.pd - Proson · 2016-10-22 · Tuner Board (RFAmp, Osc, Mix, IFAmp...
MODEL:
RM2010
Service Manual
CONTENTS
SECTION 1.Power supply to parts........................................ 2
SECTION 2. Tools and instruments for checking................. 2
SECTION 3.Block diagram..................................................... 3
SECRION 4.Product circuit schematic.................................. 4
SECTION 5.PCB layout drawing...........................................10
SECTION 6.Main IC function................................................23
SECTION 7.Critical integrated circuit block.......................24
SECTION 8.Part list............................................................... 69
SECTION1
POWER SUOOLY TO PART
1.1 Power AC~230v/50HZ,After Transformering .Rectifying And
Regulating Supply DC+/-48V,DV+/-12V .DC+9V.DC+5V And
AC21.V
1.2 DC+/-48V Power Supplied to Power Amplifier (Transistor 2SC5200
2SA1943 D669A B649A......)
1.3 DC+/-24V Power Supplyed to Control BD ICUPD16311
1.4 DC+/-12V Power Supplied to Main BD PhinoAMP IC NC5532.Pre-
Amplifier IC NE5532.And Tuner BD IC.
1.5 DC+/-9V Power Supplied to main BD IC PS8889,IC4066.
1.6 DC+5V Power Supplied to ContrilBD CPU IC GMS97C52.
1.7 AC~2.1V Power Supplied to VFD(SVAIMM14) Display.
SECTION 2.
TOOLS AND INSTRUMENTS FOR CHECKING
2.1 Tools:Multimeter Electric Soldering iron, Cutting Pliers And Antistatic
ect.....
2.2 Instruments: Standard Signal Generator , Audio Signal Generator,
Voltmeter,Osclloscope, Distortion Appparatus, Audio Analyzer(A1-
Audio Test & Service Syetem)
Tu
ne
r B
oa
rd(R
FA
mp
, O
sc, M
ix,
IFA
mp
De
tecto
r, D
eco
de
)
AN
T(7
5 )
F
MR
F
SE
CT
ION
3
Blo
ck d
iag
ram
AM
LO
OP
AN
T
AM
PH
ON
O I
N
L+
R3 5
4N
1N
E5
53
2p
re-A
Mp
lifi
er
1 7
2,
31
Audioout 5,2
8C
D I
NL
+R
3 30
L+
R6 27
RE
C O
UT
INI
PS
88
89
ch
an
ne
l S
ele
ct
& E
Q
16
.1
7.
18
.
TA
PE
IN
L+
R4 8
IN3
CD
40
66
Ele
cti
c S
wit
h
TAPE(L+R)
LOUD(L+R)
AUXIN
Lch
Rch
3,9
2,1
0
5,6
,12
,13
AU
X I
N
L+
R1
N2
NE
55
32
Pre
-Am
p
2 6
7 L
ch
1 R
ch
Po
we
r A
Mp
lifi
er
Cir
cu
it
2Z
32
Z2
2Z
1
Sp
ea
ke
r (
L )
Sp
ea
ke
r (
R )
Sp
ea
ke
rP
rote
cti
on
Cir
cu
it
To
2Z
1~
2Z
4
3N
4P
T6
31
1V
FD
Dri
ve
r/C
on
tro
lV
FD
3N
1G
MS
97
C5
2C
PU
34
,3
5,
36
, 32
,33
3N
97
4A
HC
IG0
8
+5
VR
em
ote
Re
ve
ive
rh
ea
d
Ke
y b
utt
on
Lch
Rch
2Z
4
He
ad
ph
on
eJa
ck
23
0V
AC
50
Hz
Po
we
r S
w
Po
we
r P
lug
v+
48 v
-48
v-2
4
To
Po
we
r A
MP
To
VF
D
Dri
ve
r IC
AC
~2
.1V
AC
0V
AC
~2
.1V
To
VF
D
La
mp
pin
1U
4 7
80
5
1U
1 7
81
2
1U
2 7
91
2
1U
3 7
80
9
To
2Z
1~
2Z
4
+5
V T
o C
PU
, R
eve
ive
r h
ea
d
+1
2V
-12
VTo
Pre
-AM
P I
C
To
Pre
-AM
P I
C
+9
V
To
ch
an
na
l S
ele
ct
ICE
lecti
c S
wit
h I
C
8,25
7,26
4,29
12
21
LOUD(L+R)
1,1
1
C C
Tra
nsfo
rme
r
Tra
nsis
tor
2sc5
20
0.2
sa
19
43
D6
69
A.B
64
9A
...
SECTION 44.1 MCU & VFD Driver Schematic Draning
4.2 Phono Pre-AMP Schematic Draning
4.3 Chammel Select & EQ Schematic Draning
4.4 Power AMP Schematic Draning
4.5 Remote Control Schematic Draning
12
34
ABCD
43
21
D C B AT
itle
Num
ber
Rev
isio
nSi
ze A4
Dat
e:19
-Sep
-200
2Sh
eet
of
File
:E
:\cam
en\M
OD
EL
\RM
2010
&20
10L
\Rm
2010
(PR
OSO
N W
OR
K)\
prot
el\r
m20
10-1
00w
.ddb
Dra
wn
By:
SW11 SW22 SW33 SW44 DOUT5 DIN6 IC7 CLK8 STB9 KEY110 KEY211 KEY312 KEY413
VD
D14
S1/K
S115
S2/K
S216
S3/K
S317
S4/K
S418
S5/K
S519
S6/K
S620
S7/K
S721
S8/K
S822
S9/K
S923
S10K
1024
S11K
1125
S12K
1226
S13G16 27
S14G15 28
S15G14 29
S16G13 30
S17G12 31
S18G11 32
VDD 33
VEE 34
S19G10 35
S20G9 36
G8 37
G7 38
G6 39
G5
40G
441
G3
42G
243
G1
44V
DD
45L
ED
546
LE
D4
47L
ED
348
LE
D2
49L
ED
150
VSS
51O
SC52
3N4
PT63
11
CS
1
SO2
WP
3
VSS
4SI
5SC
K6
RST
7V
CC
83N
2X
2504
51 2 3 4 5 6 7 8 9
10 11 12 13 14 15 16 17 18 19 20
40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21
3N1
GM
S97C
52p1.0
p1.1
p1.2
p1.3
p1.4
p1.5
p1.6
p1.7
RESET
p3.0
p3.1
p3.2
p3.3
p3.4
p3.5
p3.6
p3.7
XT2
XT1
Vss
p2.0
p2.1
p2.2
p2.3
p2.4
p2.5
p2.6
p2.7
PSEN
ALE
EA
p0.7
p0.6
p0.5
p0.4
p0.3
p0.2
p0.1
p0.0
Vcc
3C1
33pF
3C2
33pF3Z1
4.43
3M3R17
10K
3N9
74A
HC
1G08
+5V
1 2 3
3N5
RE
MO
TE
1 2 3 4 5 6 7 8
16 15 14 13 12 11 10 9
3RV
1
10K
*8
1 2 3 4 5 6 7 8
16 15 14 13 12 11 10 9
3RV
2
10K
*8
+5V
-24V
3R1
56K
3R1510K
3R1610K
3R1210K
3R410K
3R3
10K
3D10
5V
3C8100uF/25V
1 2 3 4 5 6 7
1XP3
-24V
5V
123456781X
.P2
1 2 3 4 5
1XP1
S17
SLE
EP
S12
DO
WN
S7
FM M
OD
E
S18
TU
NE
R
S8
MO
DE
S3
BA
ND
S19
TA
PE
S14
PHO
NO
S9 BA
SS
S5
TR
EB
LE
S10
CD
S15
AU
X
S16 UP
S11
ME
MO
RY
S6 LO
UD
S1
BA
LA
NC
E3D
31N
4148
3D4
1N41
48
3D6
1N41
48
3D2
1N41
48
3D1
1N41
48
3R28
1K3R
271K
3R26
1K3R
251K
3R24
1K
3R22
1K3R
211K
3R20
1K
3R19
1K3R
181K
3R14
1K3R
131K
3V3
STA
ND
BY
3V2
LO
UD
3V1
MU
TE
3R8
1K
3R7
1K
3R6
1K
VFD
SVA
11M
M14
P3.5
P3.6P3.7
P1.5
P1.6
P1.7
P0.3
P0.4
P0.5
P0.6
P0.7
P2.1
P2.2
P2.4
P2.0
P2.5
P2.6
P2.3
89C
LK
89D
AT
A89
STB
TA
PED
IR
MU
TE
STE
RE
OT
NU
ED
CE DI
DO
CL
P1.3
P1.2
P1.0
P1.1
P0.0
MU
TE
DG
ND
AC
2.1V
0VA
C2.
1V-2
4V+5
V
3R2
10K
3R9
10K
3R10
10K
3R11
10K
3C3
100uF/16V
3C5
0.1u
F
1 2 3
3S20
P3.3
P3.4
+5V
TO TUNERTO EQ 1XS6
3M1
MC
U &
VF
D D
rive
r Sc
hem
atic
A
11
3C40.022uF
VO
LU
ME
Che
ck B
y:A
ppro
ved
By:
VF
D.S
CH
3C9
1uF/50V
3D7
1N41
48
3R29
10K
3C10
1uF/
50V
+5V (3
N1.
40)
VFD
Dri
ver
12
34
ABCD
43
21
D C B AT
itle
Num
ber
Rev
isio
nSi
ze A4
Dat
e:19
-Sep
-200
2Sh
eet
of
File
:E
:\cam
en\M
OD
EL
\RM
2010
&20
10L
\Rm
2010
(PR
OSO
N W
OR
K)\
prot
el\r
m20
10-1
00w
.ddb
Dra
wn
By:
+12V
-12V
4R1
470
4R2
390
4R3
22K
4R4
180K
4R5
12K
4R6
500
4R7
100
4C1
18pF
4C2
180p
F
4C3
180p
F
4C4
1000
pF
4C5
0.02
2uF
4C6
5600
pF
4C7
47uF
4R8
100
4R9
500
4R10
12K
4R11
180K
4R12
22K
4R13
390
4R14
470
4C8
18pF
4C10
1000
pF 4C11
5600
pF4C
120.
022u
F
4C13
180p
F
4C14
180p
F
4C9
47uF
4C16
4.7u
F
4C15
4.7u
F
4C17
47uF
4C18
47uF
4R16
100
4R15
100
PHO
NO
R
PHO
NO
L
IN IN
PHO
NO
L
PHO
NO
R
OU
T
OU
T
GN
D
4N1B
NE
5532
4N1A
NE
5532
5 67
31
2
8 4
TO EQ
A
11
Pho
no P
re-A
mpl
ifie
r Sc
hem
atic
* *
Che
ck B
y:A
ppro
ved
By:
PH
ON
O.S
CH
RM
2010
12
34
ABCD
43
21
D C B AT
itle
Num
ber
Rev
isio
nSi
ze A4
Dat
e:19
-Sep
-200
2Sh
eet
of
File
:E
:\cam
en\M
OD
EL
\RM
2010
&20
10L
\Rm
2010
(PR
OSO
N W
OR
K)\
prot
el\r
m20
10-1
00w
.ddb
Dra
wn
By:
AG
ND
1
IN1L
2
IN2L
3
IN3L
4
IN4L
5
SWO
UT
_L6
LO
UD
_L7
VR
IN_L
8
TR
EB
_L9
BA
SS1_
L10
BA
SS2_
L11
FOU
T_L
12
RO
UT
_L13
VR
EFI
N14
CT
15
STB
16C
LK
17D
AT
A18
AV
cc19
RO
UT
_R20
FOU
T_R
21
BA
SS1_
R22
BA
SS2_
R23
TR
EB
_R24
VR
IN_R
25L
OU
D_R
26SW
OU
T_R
27IN
4R28
IN3R
29IN
2R30
IN1R
31V
cc32
+9V
1C42 1R23 2.7K
AUX R
CD R
1R31K
1R2612K
OUT1 IN-2 IN+3 VCC-4 IN+ 5
IN- 6
OUT 7
VCC+ 8
-12V
+12V
1R72.2K
1R152.2K
1C2010uF
1C19 10uF
1R171K
1R152.2K
1R132.2K
1110
12
12
13
43
5
89
6
1C6147uF/16V
12345
L
GND
R
FROM PHONO OPAMP
123456
+12V
CLK
STBDATA
TAPEDIR
1R2
10
1R12
470
1C34
100u
F
+9V
1R38
100
1R39
100
1R36
2.2K
1R34
2.2K
1R3522K
1R37
22K
A
11
Cha
nnel
Sel
ect
& E
Q S
chem
atic
* *
EQ
.SC
H
Che
ck B
y:A
ppro
ved
By:
1D19
1N41
48
RM
2010
CD
4066
12
34
56
ABCD
65
43
21
D C B A
Titl
e
Num
ber
Rev
isio
nSi
ze B
Dat
e:19
-Sep
-200
2Sh
eet
of
File
:E
:\cam
en\M
OD
EL
\RM
2010
&20
10L
\Rm
2010
(PR
OSO
N W
OR
K)\
prot
el\r
m20
10-1
00w
.ddb
Dra
wn
By:
2V72N5551
2R16
2202V6
2N5401
2V10
2SA19432R2833K
2R2927K
2R3022K
2R70
56K
2V26
2N54
01
2R771M
2C22
10uF
2R69
10K
2V24
8050
2V25
8050
2C21
100u
F
2C20
100u
F
2V28
8050
2R73
220K
2R71
4.7K
2V29
8050
2C23
33uF
/100
V1D
151N
4001
2D3
12V
2D124V
2D2
24V
2C9
100u
F
2D6
1N41
48
2V302N5551
2R462202V18
2N5401
2V222SA1943
2R5233K
2R5827K
2R55
22K
2D4
24V
2D5
24V
2C19
100uF
2R6747K
2R6847K
2R26
33K
2R59
33K
1D9
6A4
1D10
6A4
1D11
6A4
1D12
6A4
1D5
1N40
01
1D6
1N40
01
1D7
1N40
011D
8
1N40
01
1C14
1000
0uF
1C1510000uF
1C4
2200
uF 1C5
2200
uF
1C1
100uF
1C17
0.1u
F
1C16
0.1u
F
1C7
0.1u
F
1C6
0.1uF
1D4
1N40
011D
3
1N40
011D
2
1N40
01
1D1
1N40
01
1C10
1000
uF1C
1110
00uF
1C3 10
0uF 1U
1 7812
1U3
7809
7805
1U4 1U
2 7912
2Z1
2Z2
2Z2
2Z1
1 2 3 4 5 6
2XS1
+9V
+12V
GN
D
-12V
GND
+5V-24V
AC 2.1VAC 0VAC 2.1V
2C1
4.7u
F
2C11
4.7u
F
1234567
1XS3
2D71N4148
POW
1 2 3 4 5
2XS3
2R78
10K
2R75
47
LRGVI
VO
VAB
B A V
12345
2XP3
2R63470
2R64470
RGN
D
L
FRO
ME
Q
2C4
30pF
2C3
30pF
2C14
30pF
2C13
30pF
2C8
47uF
2C17
47uF
2C7
47uF
2C18
47uF
2C10
4.7u
F
2C27
4.7u
F
2R19
33 2R48
33
FS4
T6.
3A
FS5
T6.
3A
FS3
T2A
FS6
T2A
2C26 1000pF
LRGVI
VO
1C12
220u
F
1D13
1N4148
1D14
1N4148
2K1
2C16
0.1u
F
2C15
0.1u
F
2C5
0.1u
F2C6
0.1u
F
1R1
100
TO 2XS2
TO
2X
S3
2R72
2.7K
2R7410K
Pow
er A
MP
(M
ain
Boa
rd)
Sche
mat
ic
11
A
2R80
3.3K
/0.5
W
2D8
30V
2C28
4.7u
F/63
V
2R17
2VR
147
0
1.5K
2R57
1.5K
2VR
247
0
2R81
15K
2Z3
1D16
1N41
48
2Z3
1 2 3 4
2XS2
1 2 3 4
2XP2
SPK
2
SPK
1
C
*
C
2Z4
2Z4
1D17
1N41
48
1D18
1N40
01
1C65100uF
HE
AD
PHO
NE
UN
IT
C1
0.04
7uF
CA
SE
SPE
AK
ER
SE
LE
CT
UN
IT
230V
AC
Che
ck B
y:A
ppro
ved
By:
AM
P.S
CH
A B
(OR
300
ohm
)
(OR
300
ohm
)
0.01uF/250V
T3.15A L 250V
T2.
5A L
250
V
AC
JA
CK
OU
T
POW
ER
UN
IT
POW
ER
SW
ITC
H
2R82
15K
TO
SPE
AK
ER
OU
T B
OA
RD
TO
HE
AD
PHO
NE
BO
AR
D
TO
A/B
BO
AR
D
1D20
1N41
48
2R8322K
1D21
IN40
011C
6610
uF
2R84
2.2K
1D22
1N40
01
C3
0.01uF/250V
C2
0.01uF/250V
L1
L R L R G G
1 2 3 4 5 6
SPA
L
SPB
L
SPA
R
SPB
R
L R L R G G
+ - ++ - - + -
SPE
AK
ER
OU
T U
NIT
CN
1
NO
TE
S1
WH
EN
A/B
SWIT
CH
WE
RE
RE
LE
ASE
D A
T T
HE
SA
ME
TIM
ET
HE
2Z1
AN
D2Z
2W
ER
E C
LO
SED
TH
E2Z
3W
AS
OPE
NE
D2
WH
EN
A
/B S
WIT
CH
WE
RE
SE
LE
CT
ED
AT
TH
E S
AM
E T
IME
TH
E2Z
1A
ND
2Z2
WE
RE
OPE
NE
DT
HE
2Z3
WA
S C
LO
SED
100V
RM
2010
REMOTE.sch-1 - Thu Sep 19 14:04:59 2002
SECTION 5
5.1 Control Board Component Diagram And Copper side Layout
5.2 Main Board Component Diagram And Copper Side Layout
5.3 Spk Out BD Component Diagrom And Copper Side Layout
5.4 Spk Select SW BD Component Diagram And Copper Side Layout
5.5 Headphone Board Component Diagram And Copper Side Layout
5.6 Power Board Component Diagram And Copper Side Layout
SECTION 6
6.1 PT6311 : VFD Controller / Driver
6.2 NE5532 : Dual Operational Amplifier
6.3 PS8889 : Channel Select / EQ Loudness Controller
6.4 GMS97C52 : 8-Brt Microprocessor Control Unit
6.5 4066B: Quad Bilateral Switch
SECTION 7
7.1 VFD Controller/Driver IC PT6311
7.2 Operational Amplifier IC NE5532
7.3 Channel Select/EQ IC PS8889
7.4 MCU IC GMS97C52
7.5 Quad Bilateral Switch IC 4066B
7.6 Power Amplifier Transistor : 2SC5200, 2SA1943;
©2000 Fairchild Semiconductor International
www.fairchildsemi.com
Rev. 5.0
Features• Internal frequency compensation• Slew Rate: 8V/µs• Input noise voltage: • Full power bandwidth: 140KHz
DescriptionThe NE5532 is a internally compensated dual low noise OP AMP. The high small signal and power bandwidth provides superior performance in high quality AMP, all control cir-cuits, and telephone applications.
8nV Hz⁄ (fo = 30Hz)
8-DIP
1
Internal Block Diagram
NE5532Dual Operational Amplifier
NE5532
2
Absolute Maximum Ratings
ELECTRICAL CHARACTERISTICS(VCC=15V, VEE= - 15V, TA = 25°C)
Parameter Symbol NE5532 Unit
Power Supply Voltage VCC ±22 V
Differential Input Voltage VIO ±13 V
Input Voltage VI Supply Voltage V
Power Dissipation PD 1000 mW
Operating Temperature Range TOPR 0 ~ + 70 °C
Parameter Symbol Conditions Min. Typ. Max. Unit
Input Offset Voltage VIO - - 0.5 4.0 mV
Input Offset Current IIO - - 10 150 nA
Input Bias Current IBIAS - - 200 800 nA
Supply Current ICC - - 6.0 16 mA
Input Voltage Range VI(R) - ±12 ±13 - V
Common Mode Rejection Range CMRR TA = 25 °C 70 100 - dB
Power Supply Rejection Ratio PSRR TA = 25 °C 80 100 - dB
Output Voltage Swing VO(P-P) RL≥600Ω ±12 ±13 - V
Input Resistance RI TA = 25 °C 30 300 - KΩShort Circuit Current ISC - - 38 - mA
Overshoot OS RL =600Ω, CL =100pF - 10 20 %
Voltage Gain GV f = 10KHz 2 2.2 - V/mV
Gain Bandwidth Product GBW CL =100pF, RL = 600Ω 8 10 - MHz
Slew Rate SR RL =1K, CL =100pF, RL =600Ω 6 8.0 - V/µs
Input Noise Voltage VNIfO = 30HzfO = 1KHz
-8.05.0
- nV/ Hz
NE5532
3
Typical Performance Characteristics
Figure 1. Open Loop Frequency Response Figure 2. Large Signal Frequency Response
Figure 3. Supply Current vs Supply Voltage Figure 4. Input Bias Current vs Temperature
Figure 5. Output Circuit Current vs Temperature Figure 6. Slew Rate
1/9September 2001
15V DIGITAL OR ± 7.5V PEAK TO PEAKSWITCHING
125Ω TYPICAL ON RESISTANCE FOR 15VOPERATION
SWITCH ON RESISTANCE MATCHED TOWITHIN 5Ω TYP. OVER 15V SIGNAL INPUTRANGE
ON RESISTANCE FLAT OVER FULL PEAKTO PEAK SIGNAL RANGE
HIGH ON/OFF OUTPUT VOLTAGE RATIO :65dB TYP. at fIS = 10KHz, RL = 10KΩ
HIGH DEGREE OF LINEARITY : < 0.5%DISTORTION TYP. at fIS = 1KHz, VIS = 5 Vpp,VDD - VSS > 10V, RL = 10KΩ
EXTREMELY LOW OFF SWITCH LEAKAGERESULTING IN VERY LOW OFFSETCURRENT AND HIGH EFFECTIVE OFFRESISTANCE : 10pA TYP.at VDD - VSS = 10V, Tamb = 25°C
EXTREMELY HIGH CONTROL INPUTIMPEDANCE (control circuit isolated fromsignal circuit 1012Ω typ.)
LOW CROSSTALK BETWEEN SWITCHES :50dB Typ. at fIS = 0.9MHz, RL = 1KΩ
MATCHED CONTROL - INPUT TO SIGNALOUTPUT CAPACITANCE : REDUCESOUTPUT SIGNAL TRANSIENTS
FREQUENCY RESPONSE SWITCH ON :40MHz (Typ.)
QUIESCENT CURRENT SPECIF. UP TO 20V 5V, 10V AND 15V PARAMETRIC RATINGS
INPUT LEAKAGE CURRENTII = 100nA (MAX) AT VDD = 18V TA = 25°C
100% TESTED FOR QUIESCENT CURRENT MEETS ALL REQUIREMENTS OF JEDEC
JESD13B ” STANDARD SPECIFICATIONSFOR DESCRIPTION OF B SERIES CMOSDEVICES”
DESCRIPTIONThe HCF4066B is a monolithic integrated circuitfabricated in Metal Oxide Semiconductortechnology available in DIP and SOP packages.The HCF4066B is a QUAD BILATERAL SWITCHintended for the transmission or multiplexing ofanalog or digital signals.It is pin for pin compatible with HCF4016B, butexhibits a much lower ON resistance. In addition,
HCF4066BQUAD BILATERAL SWITCH FOR TRANSMISSION OR
MULTIPLEXING OF ANALOG OR DIGITAL SIGNALS
PIN CONNECTION
ORDER CODESPACKAGE TUBE T & R
DIP HCF4066BEYSOP HCF4066BM1 HCF4066M013TR
DIP SOP
HCF4066B
2/9
the ON resistance is relatively constant over thefull input signal range. The HCF4066B consists offour independent bilateral switches. A singlecontrol signal is required per switch. Both the pand n device in a given switch are biased ON orOFF simultaneously by the control signal. Asshown in schematic diagram , the well of then-channel device on each switch is either tied tothe input when the switch is ON or to VSS whenthe switch is OFF. This configuration eliminates
the variation of the switch-transistor thresholdvoltage with input signal, and thus keeps the ONresistance low over the full operating signal range.The advantages over single channel switchesinclude peak input signal voltage swings equal tothe full supply voltage, and more constant ONimpedance over the input signal range. Forsample and hold applications, however, theHCF4016B is recommended.
INPUT EQUIVALENT CIRCUIT PIN DESCRIPTION
TRUTH TABLE
SCHEMATIC DIAGRAM (1 OF 4 IDENTICAL SWITCHES AND ITS ASSOCIATED CONTROLCIRCUITY)
PIN No SYMBOL NAME AND FUNCTION
1, 4, 8, 11 A to D I/O Independent Inputs/Out-puts
2, 3, 9, 10 A to D O/IIndependent Outputs/Inputs
13, 5, 6, 12CONTROL
A to DEnable Inputs
7 VSS Negative Supply Voltage
14 VDD Positive Supply Voltage
CONTROL SWITCH FUNCTION
H ON
L OFF
HCF4066B
3/9
ABSOLUTE MAXIMUM RATINGS
Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these conditions isnot implied.All voltage values are referred to VSS pin voltage.
RECOMMENDED OPERATING CONDITIONS
ELECTRICAL CHARACTERISTICS(Tamb = 25°C,Typical temperature coefficient for all VDD value is 0.3 %/°C)
Symbol Parameter Value Unit
VDD Supply Voltage -0.5 to +22 V
VI DC Input Voltage -0.5 to VDD + 0.5 V
II DC Input Current ± 10 mA
PD Power Dissipation per Package 200 mW
Power Dissipation per Output Transistor 100 mW
Top Operating Temperature -55 to +125 °C
Tstg Storage Temperature -65 to +150 °C
Symbol Parameter Value Unit
VDD Supply Voltage 3 to 20 V
VI Input Voltage 0 to VDD V
Top Operating Temperature -55 to 125 °C
Symbol Parameter
Test Condition Value
UnitVI(V)
VDD(V)
TA = 25°C -40 to 85°C -55 to 125°C
Min. Typ. Max. Min. Max. Min. Max.
IL Quiescent DeviceCurrent (allswitches ON or allswitches OFF)
0/5 5 0.01 0.25 7.5 7.5
µA0/10 10 0.01 0.5 15 15
0/15 15 0.01 1 30 300/20 20 0.02 5 150 150
SIGNAL INPUTS (VIS) and OUTPUTS (VOS)
RON Resistance VC=VDD RL = 10KΩReturn to (VDD-VSS)/2
VIS = VSS to VDD
5 470 1050 1200 1200
Ω10 180 400 500 500
15 125 240 300 300∆ON Resistance ∆RON
(between any 2 of4 switches)
RL = 10KΩ, VC = VDD
5 5
Ω10 10
15 15TDH Total Harmonic
DistortionVC = VDD = 5V, VSS = -5VVIS (p-p) = 5V, RL = 10KΩ (sine wave centered in 0V)
fIS = 1KHz sine wave
0.4 %
-3dB CutoffFrequency (Switchon)
VC = VDD = 5V, VSS = -5VVIS (p-p) = 5V, RL = 1KΩ
(sine wave centered in 0V)
40 MHz
-50dB FeedthroughFrequency (switchoff)
VC = VSS = -5VVIS (p-p) = 5V, RL = 1KΩ
(sine wave centered in 0V)
1 MHz
HCF4066B
4/9
-50dB CrosstalkFrequency
VC(A) = VDD = +5VVC(B) = VSS = - 5VVIS(A) = 5V (p-p)
50Ω source, RL = 1KΩ
8 MHz
tpd Propagation DelayTime (signal inputto output)
RL = 200KΩ, VC = VDDVSS = GND, CL = 50pF
VIS= 10Vsquare wave centered on 5V
tr, tf = 20ns
20 40
ns10 207 15
CIS Input Capacitance
VC = VSS = -5 +5
8
pFCOSOutputCapacitance
8
CIOS Feedthrough 0.5
Input/OutputLeakage CurrentSwitch OFF
VC = 0VVIS = 18V, VOS = 0VVIS = 0V, VOS = 18V
18 ±10-3 ±0.1 ±1 ±1 µA
CONTROL (VC)
VILC Control Input LowVoltage IIS< 10 µA
VIS = VSS, VOS = VDDand
VIS = VDD, VOS = VSS
5 1 1 1
V10 2 2 2
15 2 2 2
VIHC Control Input HighVoltage
5 3.5 3.5 3.5
V10 7 7 715 11 11 11
II Input LeakageCurrent
VIS < VDDVDD - VSS = 18V
18 ±10-5 ±0.1 ±1 ±1 µA
Crosstalk (controlinput to signaloutput)
VC = 10V (sq. wave)tr, tf = 20nsRL = 10KΩ
10 50 mV
Turn - OnPropagation DelayTime
VIN = VDD, tr, tf = 20nsCL = 50pF, RL = 1KΩ
5 35 70
ns10 20 40
15 15 30Control InputRepetition Rate
VIS=VDD, VSS=GNDRL = 1KΩ to GND
CL = 50pF, VC = 10Vsq. wave center on 5V
tr, tf = 20nsVOS=1/2VOS at 1KHz
5 6
MHz
10 9
15 9.5
CI Input Capacitance Any Input 5 7.5 pF
Symbol Parameter
Test Condition Value
UnitVI(V)
VDD(V)
TA = 25°C -40 to 85°C -55 to 125°C
Min. Typ. Max. Min. Max. Min. Max.
HCF4066B
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TYPICAL APPLICATIONS (BIDIRECTIONAL SIGNAL TRANSMISSION VIA DIGITAL CONTROLLOGIC)
TYPICAL APPLICATIONS (4-CHANNEL PAM MULTIPLEXER SYSTEM DIAGRAM)
HCF4066B
6/9
TEST CIRCUIT
CL = 50pF or equivalent (includes jig and probe capacitance)RL = 200KΩRT = ZOUT of pulse generator (typically 50Ω)
WAVEFORM : PROPAGATION DELAY TIMES (f=1MHz; 50% duty cycle)
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SECTION 8
REF.NO PART NO. DESCRIPTION QTY
8.1 MAIN AMPLIFIER BOARD PARTS LIST.
REF.NO PART NO. DESCRIPTION QTY
ref:
8.2 CONTROL BOARD PARTS LIST.
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REF.NO PART NO. DESCRIPTION QTY
REF.NO PART NO. DESCRIPTION QTY
REF.NO PART NO. DESCRIPTION QTY
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REF.NO PART NO. DESCRIPTION QTY
8.6 SPERKER OUT BOARD PARTS LIST
8.3 POWER BOARD PARTS LIST.
8.4 SPEAKER SELECT SWITCH BOARD PARTS LIST
8.5 HEADPHONE BOARD PARTS LIST.
