SHARP 14DCM, 14DSC, 21DCK1, CV2132CK1, TV21D-CK1A Service manual & schematics

Page 1

SERVICE MANUAL 维修手册

$94E314DCMA//

In the interests of user-safety (Required by safety regulations in some countries ) the set should be restored to its original condition and only parts identical to those specified should be used.

为了用户安全起见(根据一些国家的安全规程的需要),应将电视机保持于最初的状态,而且只能使用与指定物相同的部件。

The above models are based on models 14D-CM, 21D-CK1 and CV-2132CK1, respectively, and use the PAL-^® chassis instead of the SP-30 chassis.

The TV sets equipped with the PAL- (a) chassis have the following labels attached near the model label on the rear cabinet. Be sure to confirm these labels.

本型号是分别以型号14D-CM、21D-CK1和CV-2132CK1为基础,并由换替SP-30机芯底盘为PAL-④ 机芯底盘而成的。

使用 PAL - ④ 机芯底盘的电视机,在后机壳上的型号标签附近贴有下记标签,故请加以确认。

14D-CM

21D-CK1⊗

CV-2132CK1®

WARNING

The chassis in this receiver is partially hot. Use an isolation transformer between the line cord plug and power receptacle, when servicing this chassis. To prevent electric shock, do not remove cover. No user — serviceable parts inside. Refer servicing to qualified service personnel.

该电视机底盘的有些部分通电。当维修本机底盘时,请在电源线插头和电源插座之间使用隔离变压器。为了防止电击的危险,不要去拆下机盖。在里面的部件, 不是使用者所能维修的,必须委托够格的维修人员来进行维修。

Page 2

14D-CM@, 21D-CK1@ CV-2132CK1@

CONTENTS
	Page
•FEATURE	2
SPECIFICATIONS	3
IMPORTANT SERVICE NOTES	4
ADJUSTMENT PRECAUTIONS	5
SERVICE ADJUSTMENT	9
TROUBLE SHOOTING TABLE	17
• CHASSIS LAYOUT	25
PRINTED WIRING BOARD ASSEMBLIES	29
SOLID STATE DEVICE BASE DIAGRAM	32
DESCRIPTION OF SCHEMATIC DIAGRAM	33
SCHEMATIC DIAGRAMS	35
• BLOCK DIAGRAM	45
REPLACEMENT PARTS LIST
	51
	63
	63
	64

កា 🔯 ● 丰要功能 ----------------------------------....................................... ● 卸放------------------------------------● 11 - 2011年 - 3 ● 11 ------------------------------------● 保养渊乾 ……………………………………………………………………………………… .... q ●故障检维表.................................... ●机芯底盘电路布置……………………………………………………………………………………………… ● 印刷曲路坂的坦势在……………………………………………………………………………………………… ● 〒 43 ℃ 用以 13 3 3 7 1 7 2 5 3 3 7 ●由路頂硼凤的说明……………………………………………………………………………………………… ●电路原理图------------------------------------●由降方报图···································· ● 更换零件表..... 口由路等件……………………………………………………………………………………………… 口句装就件.................................... 口附件……………………………………………………………………………………………… □扣亦常從...................................

田司

FEATURE

One Chip Microprocessor Voltage Synthesizer System • 39 Channels Programming System Channel Skip Preset System Last (Channel / Volume / Power / User's Control / Fine Tunina) Memory System Full Auto Search Tuning System Fine Tuning Adjustable with Remote Control Audio Output 6W (PMPO) ■ AV Input Terminal Blue Back Direct Access Remote Control 14D-CM@ ■ 14D-CM@ and 21D-CK1@: NTSC 4.43/3.58 MHz (AV Only) 21D-CK1@ CATV (Hyper Band) Ready ■ 21D-CK1@ and CV-2132CK1@: PAL/SECAM Dual System

主要功能

冒单片微电脑电压合成强系统 ●39频道编程系统 ●新道路洗设定系统 ●最终(頻道/音量/电源/用户控制/散调)记忆系统 ■会自动寻台调读系统 ■可用遥控器控制的数调功能 ■安脑功寒输出6V(PMPO) ■声象(AV) 俯号输入插孔目磁色很易功能重遥控器直接存取功能 ■型号140-CM (本) ■税号14D-CM @ 与21D-CK1 @ · NTSC4.43/3.58MHz制式兼容(只限声象信号演放) ■ 刑号21D-CK1 @ ・有线闭路电路可并路状态 ■刑号21D-CK1の与CV-2132CK1の・ PAL/SECAM制式双机并行系统

Page 3

SPECIFICATIONS

14D-CM∞

Onvergence Self Converging System
Focus Quadra-Potential Electrostatic
Sweep Deflection
Intermediate Frequencies
Picture IF Frequency
Sound IF Carrier Frequency
6.5 MHz 32.4 MHz
6.0 MHz 32.9 MHz
5.5 MHz
Colour Sub-Carrier Frequency 34.47 MHz
Power Input
Power Consumption
Audio Power Output Rating 2.8 W (at Max.) Speaker
Size 10 cm Round Dynamic Type x 1 pc.
Voice Coil Impedance 16 ohms at 400 Hz


Aerial Input Impedance
VHF/UHF 75 ohm Unbalanced
Receiving System CCIR PAL B. G. I
OIRT PAL D/K
NTSC 3 58/4 43 MHz (AV/ Input Only)
Tuning Ranges
VHF- Channels
E2 (48.25 MHz) thru E12 (224.25 MHz)
C1 (49.75 MHz) thru C12 (216.25 MHz)
UHF- Channels
E21 (471.25 MHz) thru E69 (855.25 MHz)
C13 (471.25 MHz) thru C57 (863.25 MHz)
Dimensions
Width
Height
Depth
Weight (approx.)
Cabinet Material

头肌林等

型号14	4D-CM @
聚焦自聚焦系统	天线输入阻抗
焦点平方电位静电焦点	基高频(VHF)/超高频(UHF)…75Ω非平衡式
扫描偏转	接收制式 CCIR PAL B,G,I制式 OIRT PAL D/K制式
T97. 图象中超静静地博士	NTSC3.58/4.43MHz制式(只限声象信号演放)
因象中列戰波頻率····································	调谐范围甚高频(VHF)
6. 5MHz ······32, 4MHz	B2频道(48,25MHz)~B12頻道(224,25MHz)
6. OMHz	C1頻道(49.75MHz)~C12頻道(216.25MHz)
5. 5MHz ······· 33. 4MHz	超高频(UHF)
色彩副载波频率	E21頻道(471.25MHz)~E69頻道(855.25MHz) C13朝詳(471.25MHz)。C57時詳(869.05MHz)
电源交流200~240V、50/60Hz	CI399(垣(4/1.25nnZ)~C5/列垣(863.25nHz
功率消耗
音响额定输出功率······2.8\(最大) 扬声器	克····································
尺寸 10cm圆型动态式 × 1只	重量(大约)
音圈阻抗	机壳

21D-CK1 and CV-2132CK1 Self Conversion System

Focus Quadra-Potential Electrostatic
Sweep Deflection Magnetic
Intermediate Frequencies
Picture IF Frequency
Sound IF Carrier Frequency
6.5 MHz 32.4 MHz
6.0 MHz 32.9 MHz
5.5 MHz
Colour Sub-Carrier Frequency 34.47 MHz
Power Input
Power Consumption
● 21D-CK1⊗
● CV-2132CK1⊗ 92 W
Audio Power Output Rating
● 21D-CK1⊗
• CV-2132CK1@ 3.1 W (at Max )
Speaker
Size
• 21D-CK1@ 5 cm x 9 cm x 2 pcs
● CV-2132CK1⊗ 5 cm x 9 cm x 1 pc
Voice Coil Impedance 16 ohms at 400 Hz

Convergence

Aerial Input Impedance
VHF/UHF
Receiving System SECAM/PAL B, G, D, K
• 21D-CK1@
NTSC 3.58/4.43 MHz (AV Input Only)
Tuning Ranges
VHF- Channels
E2 (48.25 MHz) thru E12 (224.25 MHz)
C1 (49.75 MHz) thru C12 (216.25 MHz)
S1 (105.25 MHz) thru S20 (294.25 MHz)
UHF- Channels
E21 (471.25 MHz) thru E69 (855.25 MHz)
C13 (471.25 MHz) thru C57 (863.25 MHz)
Dimensions
Width 542.0 mm
Height
Depth 470.0 mm
Weight (approx.) 22.0 kg
Cabinet Material All Plastics

型号21D-CK10与CV-2132CK10

天线输入阻抗

聚焦自聚焦系统
焦点平方电位静电焦点
打扰停劫
扫描调试化乙酰氨基乙酰乙酰氨基乙酰乙酰氨基乙酰乙酰氨基乙酰乙酰氨基乙酰乙酰氨基乙酰乙酰氨基乙酰氨基
甲列
图象中頻载波頻率
声音中频载波频率
6. 5MHz
6. 0MHz
5 5MHz
角影刷設油類本
34,4/mz
由御
では、100~240V、50/60Hz
切準消耗
●型号21D-CK1⊗
●型号CV-2132CK1⊗
••••
音响额定输出功率
●刑号210-0141003 11413 114 (三十)

● ④ 9 01~2132041 () ***********************************
词户辞
尺寸
●型号21D-CK1@5cm×9cm×2只
●型号CV-2132CK1◎ 5cm×9cm×1只
音罵阻抗16Ω(400Hz时)


接收制式SECAM/PAL B.G.D.K制式
PAL-I制式
●型号21D-CK1⊗
NTSC3.58/4.43MHz制式(只限声象信号演放	·)
调谐范围
甚高頻(VHF)
E2頻道(48,25MHz)~E12頻道(224,25MHz)
C1频道(49.75MHz)~C12频道(216.25MHz)
S1頻道(105,25MHz)~S20規道(294,25MHz)	ì
超高频(UHF)
E21頻道(471,25MHz)~E69頻道(855,25MHz)	١
C13频道(471,25MHz)~C57师道(863,25MHz)	ś
	′
尺寸
宽·542. 0r	m
0.11

×	••••••	•	••••••	••••••542.0m
高	••••••	•	•••• ••• •	······ 462. 0m
_深…		•	••••••	······470.0m
重重(:	大约) …	•	•••••••	······ 22. 0kg
机壳	•••••	•	•••	均由塑料而成

Specifications are subject to change without prior notice.

上述规格变更之场合,恕不另行通知

14D-CM@, 21D-CK1@ CV-2132CK1@

Page 4

IMPORTANT SERVICE NOTES

Maintenance and repair of this receiver should be done by qualified service personnel only.

SERVICING OF HIGH VOLTAGE SYSTEM AND PICTURE TUBE

When servicing the high voltage system, remove static charge from it by connecting a 10k ohm Resistor in series with an insulated wire (such as a test probe) between picture tube dag and 2nd anode lead. (AC line cord should be disconnected from AC outlet )

1. Picture tube in this receiver employs integral implosion protection.
Peolace with tube of the same type number for continued safety.
3. Do not lift nicture tube by the neck
Handle the picture tube only when wearing shatterproof googles and after discharging the

X-RAY

This receiver is designed so that any X-Ray radiation is kept to an absolute minimum. Since certain malfunctions or servicing may produce potentially hazardous radiation with prolonged exposure at close range. the following precautions should be observed:

1 140-CM@:

When repairing the circuit be sure not to increase the high voltage to more than 25.3 kV

When repairing the circuit, be sure not to increase the high voltage to more than 29.0 kV. (at beam 0 µA) for the set.

To keep the set in a normal operation, be sure to make it function on 22.0 kV ± 1.5 kV (at beam 800 "A) in the case of the set. The set has been factory — Adjusted to the abovementioned high voltage. 21D-CK1@ and CV-2132CK1@

To keep the set in a normal operation, be sure to make it function on 24.8 kV + 1.5 kV (at beam 1100 µA) in the case of the set. The set has been factory — Adjusted to the above-

If there is a possibility that the high voltage fluctuates as a result of the repairs, never forget to check for such high voltage after the work.
3. Do not substitute a nicture tube with unauthorized types and/or brands which may cause excess X-ray radiation.

BEFORE RETURNING THE RECEIVER

Before returning the receiver to the user, perform the following safety checks.

1. Inspect all lead dress to make certain that leads are not pinched or that hardware is not lodged between the chassis and other metal parts in the receiver.
2. Inspect all protective devices such as non-metallic control knobs insulating fishnapers cabinet backs, adjustment and compartment covers or shields, isolation resistor-capacity networks, mechanical insulators etc.

保养维修重要注意事项

本电视机的保养只得由专门技术人员进行。

关于高压系统和显象管的俱靠维修对高压系统进行保养维修时,先于显象管管座金属部分与第二阳极引线间用绝缘线(诸如制试探针等)申接一只10KΩ的电阻器,以除去残留于高压系统中的静电。(之前,应从电源捕成由提出未知的电源引线捕进 ) 1.本电视机品象管为整体内爆防护设计.

2. 为尽证太由如机热久伸田的完全总备等的面格必须伸田同刑县者
3. 搬移显象管时,不得倒持其颈部上提。

4.拆装搬移显象管,必须先用布物等包护荧屏防碎玻璃,并且作完全放电处理后才能进行。

关于X射线

神机为无辐射的设计因此任何财财维协设计控制于最小统对极限。然而、在发生故隐或保养维修时。过长时间地暴露机芯内部加以放置之场合。便有可能在其近旁产生有害的 X射线模封影响为此各遭道援下述预防措施。 . 划号14D-CM (A) :

维修调整术由如机内部由路时切勿让其喜乐部过25.3kV(由子束电流为() + A时)。

型号21D-CK1与CV-2132CK1网 :

维修调整本电视机内部电路时,切勿让其高压超过29.0kV(电子束电流为0 μ A时)。 2. 刮号14D-CM网 :

为保证本电视机的正常工作。务必保证其高压为22.0kV±1.5kV(电子束电流为800 µA时)的工作条件。该工作条件值在本电视机出厂前已经调试验收。

刑号210-CK1の与CV-2132CK1の・

为保证本电视机的正常工作。务必保证其高压为24 8kV±1.5kV(由于重电流为1100 山村)的工作各件该工作各件值在本由视机出厂前已经调试验收。

黑本电视机一旦经维锋调整。可能导致上述工作高压想定值发生追动。因此。维维调整完此各遭重新对其富压值进行确认检查.

更换显象管时。不得使用非经认可的、不同厂家、不同型号的显象管,以免产生超过规定标准的X村线辐射的危险。

维修后归还之前

后的由抑机归还给用白之前条语进行下列的史全检查
1. 检查电视机中的所有导线的绝缘包皮有无扭折破损之外。于机芯底板和其它会属部件之有无他物求為

检查电视机中的所有非金属质的控制旋钮、绝缘角鳞纸、机壳后盖、调节器和仪器隔室盖置或屈蔽由阳——由欢瑶离网以及机械就处瑶离器篱风的绘绘装置發材

Page 5

ADJUSTMENT PRECAUTIONS

This model's settings are adjusted in two different ways: through the I2C bus control and in the conventional analog manner. The adjustments via the I²C bus control include preset-only items and

1) Calling the service mode by the microprocessor

① Set the switch $1008 to the service mode position, and the microprocessor is put in the service mode (adjustment through the I²C bus control)
Press the VOL-UP key on the remote controller to get ready to select the modes one by one.
Press the VOL-DOWN key on the remote controller to get ready to select the modes in the order opposite to the above step (2). (See SERVICE MODE)
④ Using the ∧ and ∨ keys on the remote controller, the data can be modified.
Set the switch S1008 to the normal mode (OFF) position, and the microprocessor is out of the

2) Factory presettings (EEPROM)

(1) Make a connection between TP1001 ( nin (15) of IC1001) and GND Now the initial preset data
© Once the chassis has been put together, be sure to make the connection (see 2-① above) first. and then turn on the main power switch. Turning on the power without initializing the EEPROM may cause the unit to malfunction.

SERVICE MODE

U (1) Mode switching

本现导电视机中T²C总线控制与一般的推视调节综合进行。T²C总线控制包括初始设定(预设)以及下述的变量数据项目的调整设定。

1) 微处理机的服务状态的设定

● ④ ⑤ 1008 开关于服务状态位置。微处理机即处于服务状态(I²C总线控制调整状态)。 ②触技遥控器上的音量增大键以顺序选择各种调整状态。 ③帕拉派拉器上的音量减小键。可按与步骤②相反顺序洗择各种调整状态(见服务状杰之项) 《G·••·拉瑟·································

©取消服务状态时, 变S1008开关(关闭侧)于正常状态位置即可。

2) 初始值(预设值)的设定(R² PROM)

① 挂TP1001(IC1001的销(5)) 于接地端。初始值设定数据便存储于B²PROM记忆装置之中。

-* ②组装机芯底盘后、必须先确认上记(2-①之项)处理是否为完全正确,然后再打开主由源开关对B²PROM未处理初始值的设定之状态下打开主电源开关时,可能会导致不正常的工

作状态,故请加以注意。

服务状态

(1)设定状态的切场

Switching 1 : NORMAL mode ↔ SERVICE mode : "H" ↔ "L" (at pin (37)) Switching 2 : SERVICE mode ⇔ NVM mode ; "H" ↔ "L" (at pin (11)) Switching 3 : EEPROM initialize : "H" ↔ "L" (at pin (15)) * The initialization is made just once when the signal at pin (15) drops from "H" to "L". * The initialization is possible only once when the main power is turned on. To initialize again, turn the main power off and then on again. Switching 4: SERVICE mode ⇔ SERVICE FINE-TUNING mode The PRESET key on the unit is used for this switching

切换开关1:标准状态 ⇔ 服务状态…"H(高)"⇔"L(低)"(销(37)) 切換开关2:服务状态 ↔ NVM状态… "H (高)" ↔ "L (低)" (朝(11)) 切換开关3:B²PROM(初始值)··· "H(高)" ↔ "L(低)" (蛸(15)) *只在销(15)前沿处作一次。 *每次打开主电源开关时,只可作一次。再作一次时。先关断主电源开关,然后再打开主电 源开关而进行 。切换开关4:服务状态 ⇔ 服务微调状态触按电视机上的PRESET键进行切换

14D-CM(A), 21D-CK1(A) CV-2132CK1(A)

Page 6

(2) SERVICE mode

a) In the SERVICE mode, the VOL-UP and VOL-DOWN keys are used to select the following adjustment items.

	SERVICE MODE	[Display] SERVICE MODE	[Adjustment range (decimal) ] ****
	CUT-OFF ADJUST MODE	CUT OFF BKGD	See the table below.
	H-CENTER 50	H-CENT 50	0~15
	H-CENTER 60	H-CENT 60	0~15
	RFAGC	RF AGC	0~63
	νςο	νсο	0~63
	SUB CONTRAST	SUB CON	63~127
:	SUB COLOUR	SUB COL	31~95
A VOLUP	SOB BRIGHT	SUB BRI	31~95
	SUB TINT	SUB TIN	31~95
	RF SUB VOL	RF SUB VOL	0~127
Use the CALL key to turn on and off the display.	B. B CONTRAST	B. B CON	0~127
	B. B BRIGHT	B. B BR1	0~127

b) CUT-OFF ADJUST mode

Adjustment item	Data up	Data down	Adjustment range
R-CUT OFF	Key 1	Key 4	0~255
G-CUT OFF	Key 2	Key 5	0~255
B-CUT OFF	Key 3	Кеу б	0~255
R-DRIVE	Key 7	Key F/B	0~63
B-DRIVE	Key 8	Key 0	0~63
HORIZONTAL CENTERING	×	(ey 9

In the CUT-OFF ADJUST mode (for all the adjustments other than the horizontal centering), the contrast and brightness are adjusted as follows.

Key	CONTRAST	BRIGHT
10 +	1/64 level	32/64 level
20 +	64/64 level	32/64 level
30 +	64/64 level	64/64 level

c) Other adjustment modes

The data settings can be turned up and down using the A (\sqrt{A}) (DAC UP/DOWN) keys.

(2)服务状态的动作

a)设定服务状态后。触按音量增大键或音量减小键切换如下:


	↓服务状态	(荧屏表示文字) SERVICE MODE	〔调整范围(十进位制) ****
	截止调整状态	CUT OFF BKGD	见下图
	水平中心50	H-CENT 50	0~15
	水平中心60	H-CENT 60	0~15
	射频自动增益控制	RFAGC	0~63
	压控振荡	νςο	0~63
	副对比度	SUB CON	63~127
	副彩色	SUB COL	31~95
▲ 安香博士	副亮度	SUB BRI	31~95
	副色调	SUB TIN	31~95
	射频副声音	RF SUB VOL	0~127
触按呼出键切换表示的ON(开)和	蓝色背景对比度	B. B CON	0~127
UTI(天)。	蓝色背景亮度	B. B BRI	0~127
	Ť

b)截止调整状态

调整项目	数据上移	数据下移	调整范围
红色截止	1键	4键	0~255
绿色截止	2键	5键	0~255
蓝色截止	3键	692	0~255
红色激励	7键	C I/BOE	0~63
蓝色激励	892		0~63
水平中心状态		键

在非水平中心的截止调整状态时。必须设对比度和亮度控制于下表所示的规定位置。

健钮	对比度	亮度
10 +	1/64级	32/64级
20 +	64/64袋	32/64级
30 +	64/64级	64/64级

C)除此以外的调整状态触技 [∧] / [∨] (DAC上移/下移)键进行数据的上移和下移。

Page 7

(3) NVM mode

a) The NVM mode is introduced at switching 2.

b) Using the VOL-UP/DOWN keys, the addresses are searched as follows. At a desired address, use the () () (DAC UP/DOWN) keys to turn up and down the data.

(4) EEPROM initialization

At switching 3, the following data are transmitted to the EEPROM.

Factory preset data

SERVICE MODE reference data


Item	Setting
LAST CH	CH1
LAST POWER	ON
FLACH BACK	CH1
BLUE BACK	ON
VOLUME	1/64 level
CONTRAST	64/64 level
COLOUR	32/64 level
BRIGHT	32/64 level
TINT	32/64 level
SHRPNESS	17/33 level
AFT	ALL CH ON
SKIP	ALL CH OFF
COLOUR SYSTEM	ALL CH AUTO
SOUND SYSTEM	ALL CH AUTO
SERVICE MODE	INITIAL

ltem	Data (decimal)
R-CUT OFF	0
G-CUT OFF	0
B-CUT OFF	0
R-DRIVE	31
B-DRIVE	31
H-CENTER 50	6
H-CENTER 60	9
RFAGC	31
VCO	31
SUB CONT	85
SUB COLOUR	55
SUB BRIGHT	40
SUB TINT	58
RF SUB VOL	63
B. B CONT	41
B. B BRIGHT	40

DELAY TIME reference data

ltem	Data (hexadecimal)
PAL DELAY TIME	25H
SECAM DELAY TINE	66H
NTSC DELAY TIME	55H
B/W DELAY TIME	71H

E7

(3)NVM设定状态

a)通过切换开关2设定NVM状态。

b)触按音量增大键或音量减小键,地址代码即发生如下变动:设定所需地址代码后, 触按[∧]/ ☑ (DAC上移/下移)键进行地址数据的上移和下移。_____

(4) B²PROM初始值的设定用切换开关3输入下记数据于B²PROM装置之中。

●出厂前的初始设定数据

项目	设定值
最后设定频道	频道1
最后设定电源	设定(ON)
反闪	频道1
蓝色背景	设定(ON)
音量	1/64级
对比度	64/64级
彩色	32/64级
売度	32/64级
色调	32/64级
鲜明度	17/33级
自动微调	全频道设定(ON)
頻道跳跃	全频道关闭(OFF)
形色制式	全频道自动
声音制式	全频道自动
服务状态	开头

●服务状态的标准数据

项目	数据(十进制)
红色截止	0
绿色截止	0
蓝色截止	0
红色激励	31
蓝色激励	31
水平中心 50	6
水平中心 60	9
射频自动增益控制	31
压控振荡	31
副对比度	85
副彩色	55
副亮度	40
副色调	58
射频副音量	63
蓝色背景对比度	41
蓝色背景亮度	40

●延迟时间的标准数据

项目	数据(十六进制)
PAL制式延迟时间	25H
SECAM制式延迟时间	66H
NTSC制式延迟时间	55H
B/W制式延迟时间	71H

C 7

Page 8

(5) SERVICE FINE-TUNING mode

a) This mode is introduced at switching 4.

b) This mode does not work in the AV mode.
c) During this mode, the AFT system stays off [AFT DEF bit (BAH 04H D6) is set at "1".
d) The data is turned up and down once when the UP/DOWN keys on the set are first pressed. For a period of about 270 msec that follows, this up/down action is not made whether the keys are held down. After that, the up/down action is performed every 135 msec or so.

e) When the keys are released, the tuning, band, AFT-on and skip-off data are written into the EEPROM. f) The following are effective during this mode.

POWER key input
Switching 1
Switching 4

(5)服务微调方式

a)通过切换开关4可设定该方式。
b)在声象(AV)状态下不能使用该方式。
c)在设定该方式之中,AFT OFF(自动撤调关闭) (AFT DEF位数 (BAH 04H D6)应选定 "1"。
d)首先触按电视机上的上移/下移键进行数据的上移或下移工作一次。此后,即使在约270米/ 秒之间内持续触按上移/下移键也无法进行数据的上移或下移工作。由此以后,每经过 135米/秒可进行数据的上移和下移工作。
e)解除键钮的设定时,就存储调谐、频带、自动微调设定以及频道跳跃关闭等的数据于 B²PROM记忆装置之中。
f)如下所示的状态中均有效。
●电源键钮输入
●切换开关1
●切换开关4

Page 9

SFRVICE ADJUSTMENT

1. TUNER IFT (Preset)

1. Get the tuner ready to receive the E-10CH signal but with no signal input. Adjust the Vt and band
Connect the sweep generator's output cable to the tuner antenna.
3. Adjust the sweep generator's output level to 80 dB //V
Connect the response lead (use a low-impedance) probe with wave detector) to the tuner's IF output terminal (This terminal must have the probe alone
5. Set the RF AGC voltage to 0—6 V with no contact
6. Adjust the tuner's IF coil to obtain the waveform as shown in right.

Note:

Be sure to keep the tuner cover in position during this adjustment.

2. COIL ADJUSTMENT: T202 (VCO)

1 Receive the E-12CH (PAL COLOUR BAR) signal. If this signal is not available, receive an E-5CH or higher-channel signal Field strength: 60—80 dB W
Connect the oscilloscope to pin (36) of (C801)
Range: 0.5 V/div
Sweep time: 20 wooddiw
Svnc: Horizontal svnc
Connect the standard signal generator's output cable to the tuner's IF output terminal with a 1-pF capacitor in between Frequency: 38.9 MHz (CW) + 5 kHz
- Level: About 90 dB_µV
4. Using the Preset switch, bring about the VHF-H Tuning mode. Adjust the Fine Tuning Up/Down kevs so that the waveform be free of beating. Using the Preset switch, bring about the Normal
6. Adjust T202 so that the waveform be free of beating Adjustment error
38 900 MHz + 25 LU-

Note 1

Make this adjustment with the VCO data in the service mode at 31/63.
Note 2:
Warm up the unit long enough before starting adjustment and checking.

化异子异门图北谷

1 调谐器中频变压器线圈的调试 (预设) 1.在无信号接收状态下,接收B-10频道信号, 调节Vt和频带数据 2. 接扫频振荡践输出端干调谐毁天线接线端 3.把扫频振荡器输出电平调至80dB µ V。 4. 接响应引线(使用带有检波器的低阻抗探针) 于调谐器中频输出端。(只接探针于调谐器中類輸出端) 5.设射频自动增益控制RF AGC于0至6V. 消去其波形表示 A 重將调谐器中熵线圈所得波形调至下图所示的初定再改

注音・调整时、请确认调谐器盒盖的罩接。
2. 线圈的调试:T202(压控振荡器VCO) 1.接收B-12频道(PAL制式彩条)信号。无B-12频道信号输入时,可用B-5频道以上的频道信号代嶅 ●场强度:60~80dBµV 2.接示波器于IC801的约(36) ●测示范围:
- ●扫描时间。 20 微秒 / 印
- ●周步动作・ * 亚同步
3. 通过由接一只1nF的电容器。接标准信号发生器的输出端于调谐器中频输出端。
- ●痴家・ * (CW) ± 5kHz
- ●由亚, #1904Bu V
4.触按预设健骨电视机于高域其高频状态。上下调节调谐器的微调控制键。使其输出波形
量现零拍
5. 再触按预设键处电视机于标准状态。 6. 调节T202. 使其输出波形的差拍消失为零。 ●调整误差: 38.900MHz ± 25kHz
注意:作此项调试之前。必须确认在服务状态下的"压控损荡器VCO"的总线控制数据为31/63。
注音
~~~~ 作此项调试之前。应先充分预热之。

To be free of beating

Page 10

■ 115V LINE ADJUSTMENT

1. Before turning on the power, set R711 to the 5/10 position.

Receive the E-5CH (monoscope pattern) signal.
3. Set the contrast and brightness controls to the MAX position.
Connect the beam current meter to TP602 ( ) and TP603 ( + ).
Take the beam current meter reading to see if the beam current is as specified below (*1). If the beam current is not as specified, adjust the sub-contrast control (R420) to get the beam current in this range.
6. Connect the digital voltmeter to TP701. Adjust R711 to obtain 115 ± 0.5 V.

(*1) 14D-CM® ....................................

■ 115V线路的调试

1.打开电源开关之前,必须设R711于5/10位置。

2.接收B-5频道(单象管图案)信号。
3.设对比度控制和亮度控制于MAX(最大)位置。

4.接电子束电流计于TP601(一)和TP602(+)。

5.用电子束电流计检查电子束电流是否于(*1)所示的规定范围之间。上述之外之场合,必须调节副对比度控制(R420)。使电子束电流计所测的读数达至(*1)所示的规定范围。

6.接数字式电压计于TP701。

●调节R711、使数字式电压计所测的读数达

至115±0.5V的规定要求。

(*1)

型号14D-CM @ ......600~800 µ A
型号21D-CK1@、CV-2132CK1@.....900~1100 µ A

Page 11

PURITY ADJUSTMENT

Fig. B

Fig. D

Note 1. Keep the static convergence roughly adjusted Note 2: Maintain the purity magnet at the zero
1. 14D-CM@
Warm up the unit for 30 minutes or longer with a beam current of over 500 uA. 21D-CK1@, CV-2132CK1@. Warm up the unit for 30 minutes or longer with a beam current of over 700 µA.
Receive the areen-only signal. Adjust the beam current to 500 "A or so Receive the green-only signal. Adjust the heam current to 700 uA.
3. Degauss the CRT enough with the degaussing

PREPARATIONS

Orientation: Eastward Adjustment field (depending on desti-Vertical (By): + 30,000 pT (+0,30 gause) Horizontal (Bh): 20,000 nT ( 0.20 gauss)
1. Observe the points "a" and "b", as shown in Fig. A, through a microscope. Adjust the landings to the specified requirements
2. Move the deflection vokes forward so that the left and right landings be equally placed outward. See Fig. B.
3. If the landings are placed to the left or right, as shown in Figs. C and D, readiust the open angle of the purity magnet
Make sure the left and right beam landings are as specified. Now check the CRT corners to see if they all meet the rank "B" requirements
5. If any other colour appears on the screen, move the deflection coil backward Landings outward: Deflection yokes forward Landings outward: Deflection vokes torward Landings inward: Deflection vokes backward
6. Orient the raster rotation to 0 eastward.
7 Tighten up the deflection coil screws
- Tiahtenina toraue: 11 ± 2 ka-cm

Page 12

CONVERGENCE ADJUSTMENT

CONVERGENCE ADJUSTMENT (To be done after the purity adjustment)

1. Receive the "CROSSHATCH PATTERN" signal.

2. Make the brightness and contrast settings at 5/10 (Normal) and 10/10 (Maximum) respectively (Use the remote controller)

STATIC CONVERGENCE

1. Turn the 4-pole magnet to a proper open angle in order to superpose the blue and red colours.
in order to superpose the green over the blue

DYNAMIC CONVERGENCE

1 Adjust the convergence on the fringes of the screen in the following steps.
Fig.a: Drive the wedge at point "a" and swing the deflection coil upward. Fig. b: Drive the wedges at points "b" and "c"
and swing the deflection coil
Fig. c: Drive the "c" wedge deeper and swing the deflection coil rightward.
Fig. d: Drive the "b" wedge deeper and swing the deflection coil leftward.
2. Fix all the wedges on the CRT and apply glass
3. Apply lacquer to the deflection voke lock magnets) and magnet unit lock screw.

to make sure there is no other colours on the

■面面聚焦度的调试

画面聚集度的调试(此项调试必须于色彩烛度磁铁调试完毕后进行)。

1.接收棋盘格测试图案信号。 2. 设亮度控制干标准位置(5/10)。设计公正的计信证 (()10/10) (使用遥控器)

静聚焦度的调试

1.调节4极聚焦碳铁的开角与转角使蓝色线条与红色线条重叠。
2. 调节6极聚焦磁铁的开角与转角使绿色线条再与蓝、红色重叠线条重叠。 (使用遥控器)。
动聚焦度的调试
1. 按下述要求调节荧屏周边的聚焦度。
a) 图a: 插调整楔于"a"。向上摆动偏转线闇进行调节。
b) 图b: 插调整楔于 "b" 和 "c", 向下摆动偏转线圈进行调节。
c)图c:深插调整楔"c"向右摆动偏转线图加以调节。
d)图d:深插调整楔"d",向左摆动偏转线限加以调节
2. 贴三支调整楔于阴极显象管CRT上、用玻璃胶帯固定之
3. 加封固胶于偏转线圈的固定螺丝、磁铁装置 (色彩烛串调节研铁、4极与6极聚电研铁) 以及磁铁装置的固定螺丝。封固之。

这项调试完选后耳让由却机接收灯负信号或蓝色信号。然后、检查接收的单色信号是否掺杂有其它色彩信号。

Page 13

Cut-Off. Background and Sub-Contrast Adjustments

Table 1

The data can be turned up and

KEY No

down with the keys.

1. CRT CUT-OFF ADJUSTMENT

Adjusting point

Service mode: 12C bus adjustment
(R-CUT OFF, G-CUT OFF, B-CUT OFF, SUB BRIGHT)
Screen control (a part of T601) 1. Receive the MONOSCOPE PATTERN signal
2. Adjust the SUB BRIGHT data to 40/127
3. Turn on the S1008 switch to select the CUT OFF 8KGD mode 4 Make the following settings
R-CUT OFF: 0/255 G-CUT OFF: 0/255 B-CUT OFF: 0/255
5. Press the "9" key on the remote controller to reach the horizontal centering mode
6 Turn the screen control clockwise until the horizontal raster of the first alimmerina colour becomes slightly visible.
Adjust the cut-off data of the other two colours until the horizontal raster becomes whitish. (Table 1) 8 Turn the screen control counterclockwise until the horizontal raster disappears.
Press the "9" key on the remote controller to call the Normal mode.
Note: Before starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of over 500 "A (14D-CM@). 700 "A (21D-CK1@, CV-2132CK1@)

2. WHITE BALANCE ADJUSTMENTS

Service mode: I2C bus adjustment
Receive the MONOSCOPE PATTERN signal.
2. Make this adjustment just after the CRT cut-off.
3. Connect the beam current meter between TP601 (-) and TP602 (+). (Full scale: 3 mA range)
4 Press the "30 + " key on the remote controller to call the PIC3 mode. Roughly adjust the SUB CONT data to have a beam current of 1100 "A
5. Adjust the R-DRIVE and R-DRIVE data to have a colour temperature of 10900°K (white). (Table 2)
6 Proce the "10+" key on the remote controller to call the DIC1 mode. Now check the colour temperature of the colour temperature is not 10900°K, go back to the above item 1.
10900°K x: 0.275, y: 0.287 (with a Minolta colour temperature meter)

3. SUB-CONTRAST ADJUSTMENTS (1²C bus adjustment)

1. Make this adjustment just after the white balance adjustment
Make this adjustment just after the writer Receive the MONOSCOPE PATTERN signal
Connect the DC milliammeter between TP601 (--) and TP602 (+) Meter's full-scale: 3 mA range
Adjust the SUB-CONT bus data so that the beam current be 800 μA (14D-CM@,), 1100 μA (21D-CK1@, CV-2132CK1@) (at Contrast/Brightness MAX condition)

Note:

Refore starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of over 500 μA (14D-CM@). 700 μA (21D-CK1@, CV-2132CK1@)

	NIODE	CONTRAST	BRIGHT
10 +	PIC1	1/64	32/64
20 +	PIC2	64/64	32/64
30 +	PIC3	64/64	64/64

	KEY No.
	UP	DOWN
R-DRIVE	7	FВ
B-DRIVE	8	0

明极显象管CRT截止、蓝色背景以及副对比度 44 3 151 3-4

1 阴极易象管CRT载止的调试

调试点 □ 在服务状态下进行I²C总线的调试。
- 在服务状态下进行1*0.50%的调讯。 (47色載止、绿色截止、蓝色截止及副亮度控制)
- □ 按屏控制旋钮(T601的一部分) □ 灾併公利税伍(100. 1 接收备备管图安信号
- 2. 设副亮度控制于40/127位置。 3.打开S1008开关以洗择截止蓝色背景状态。
- 4. 设定内容如下
- 紅色截止:0/255 緑色截止:0/255 岐鱼截止・0/255 品に取止。いーーー 5. 帕拉诺拉野上的 "9" 魏纽以选择水平中心投态

	键钮
	上移	下移
红色截止	1	4
绿色截止	2	5
蓝色截止	3	6

(1) 田玉扫粉交缝如司出纪

数据的上移或下移工作。

6.顺时针方向旋转荧屏控制旋钮。直至荧屏上微弱地出现水平米福安正
7.调节其它两色的截止数据。使荧屏上的水平光栅变为白色。(见注意1)
9. 当时韩士向旋转带展的制旋艇,直至带展上的水平光摄空全消失为止
9. 触按遥拉器上的"9"键钮以选择NORMAL(标准)状态
注意:作此项调试之前,先用大于500 µ A (14D-CM @) / 700 µ A (21D-CK1 @ 与CV-2132CK1 @) 你也妈妈妈之前,几月八月000年前1110000000000000000000000000000000

2 白色平衡的调试

调试点 □ 左服条件太下进行120台线的调试
(红色激励, 蓝色激励)
1.接收单备管图案信号
2. 该项调试应在阴极显象管CRT载止的调试完毕后进行.
3.接电子束安接计于TP601(--)与TP602(+) 之间 (安培计测示范围・3mA)
4. 触按遥控器上的"30十"键钮以选择PIC3. 粗调副对比度控制数据。使电子束电流达至1100µA左右。
5.调节绿、蓝两色激励数据。以获得色温为10900° K的白色。 (见注實2)
6 蚰按遥拉鞋上的"10+"键钥以选择PIC1。然后。检查负温最否为规定范围内。此时、如果色温并非为10900°K。则必须返回至前项的第1项重新进行调整 10900* K X:0.275 Y:0.287

(姜能达色温计所测)

设定位置键钮状态对比度高度 1/64 20 + 64/64 : 實2

3. 副对比摩拉制的调试(120首组的调试)
- 1. 该项调试应在白色平衡的调试完毕后进行
- 2. 接收单备管图案信号
- 3.接电于束安培计于TP601(-)与TP602(+)之间
- ●安培计测示范图:3mA
- 4. 调节副对比度总线控制数据。使电子束安培计所测的读数达至 800 μ A (14D-CM @)/1100 μ A (21D-CK1の与CV-2132CK1の)的规定要求 (对比度控制和亮度控制于其最大(MAX)位置之状态时。)
- 注意:作此项调试之前,必须用大于500μA(14D-CM @)/700μA(21D-CK1 @ 与CV-2132CK1 @)
  - 电子束电流预热阴极品象管CRT30分钟以上

Page 14

OSD ADJUSTMENT: T1001

1. Receive the CROSSHATCH PATTERN signal.
2. Press the CHANNEL CALL key.
3. Make sure the right-hand edge of the OSD character is aligned with the second line from right of the crosshatch pattern. Readjust T1001 if the alignment is beyond ± 1/2 line width.

PAL CHROMA ADJUSTMENTS

SUB-COLOUR (I²C bus adjustment)

1. Receive the PAL COLOUR BAR signal.
Connect the oscilloscope to TP852 (RED cathode). (Use a 10:1 probe.) Range: 2 V/div. Sweep time: 20 µsec/div.
Using the remote controller, call the SUB COLOUR adjust mode. Adjust the SUB COLOUR data so that the white and red portions of the PAL colour bar be at the same level. See Figure
Clear the adjustment mode.

NTSC CHROMA ADJUSTMENTS

SUB-TINT (I²C bus adjustment)

1. Call the SUB TINT adjust mode. Receive the NTSC colour bar signal through the AV-IN terminal.
Connect the oscilloscope to TP853 (B-Y). Range: 20 mV/div. (AC) Sweep time: 20 µsec/div. (Use a 10:1 probe.)
Adjust the SUB-TINT data to obtain the waveform as shown in Figure.
Clear the adjustment mode.

W and R portions to be

at the same level

■ 在屏表示文字的调试:T1001

1.接收棋盘格测试图案信号。

2. 触按频道呼出键。

3.以棋盘格测试图案的右边第二条线与其表示文字右边相一致的位置为基准。如果其表示文字向左右方有1/2条线的编移,便用T1001调节之。

PAL 制式色度信号的调试

副彩色的调试(I²C总线的调试) 1.接收PAL制式彩条信号。 2.接示波器于TP852(红色阴极)。 (使用10:1的探针为宜) ●潤示范图:2V/段 ●扫頻时间:20微秒/段 3.用遥控器选择副彩色方式,然后,调节副彩色数据, 使白色信号与红色信号达至右图所示的同样电平值。 4.取消此项调整状态的设定。

■ NTSC 制式色度信号的调试

副色调的调试(I²C总线的调试) 1.呼出副色调方式。通过声象输入端接收NTSC制式彩条信号。
2.接示波器于TP853(B-Y)。

● 测示范围:20mV/段(交流)●扫频时间:20微秒/段 (使用10:1的探针为宜) 3. 调节副色调数据,以获得右图所示的输出波形。 4. 取消此项调整状态的设定。

Page 15

DEFLECTION ADJUSTMENT

1. HORIZONTAL SIZE: CN601

Note: Make this adjustment just after the purity and convergence adjustments.

Receive the "MONOSCOPE PATTERN" signal. Insert P605 in CN601 to have the best begins and line
Insert P605 in CN601 to have the best horizontal size.
Over scan ...... 6% MIN, 8% TYP, 10% MAX

2. HORIZONTAL CENTER 50 (I²C bus adjustment)

1. Receive the "MONOSCOPE PATTERN" signal.

Adjust the H-CENTER 50 data to align the pattern's center with the CRT's geometrical center.

3. HORIZONTAL CENTER 60 (I²C bus adjustment)

1. Receive the AV-NTSC (monoscope pattern) signal.

2. Adjust the H-CENTER 60 data to align the pattern's center with the CRT's geometrical center.

4. VERTICAL LINEARITY: R523

Receive the "MONOSCOPE PATTERN" signal. Adjust R527 to have the best vertical linearity.

5. VERTICAL CENTER: $501

Receive the "MONOSCOPE PATTERN" signal. Adjust $501 to align the pattern's center with the CRT's geometrical center.

6. VERTICAL SIZE: R527

Receive the "MONOSCOPE PATTERN" signal. Adjust R527 so that the vertical size be the same as the overscan of the horizontal size

7. FOCUS: (a part of T601: Focus Control)

1. Receive the "MONOSCOPE PATTERN" signal.

2. Adjust the focus control to get the best focusing.

Note: Make this adjustment just after the sub-contrast adjustment.

■ A/V INPUT AND OUTPUT CHECK

1. AUDIO/VIDEO INPUT CHECK

Using the TV/AV key on the remote controller, make sure that the modes change in the order of TV, AV and TV again and that the video and audio outputs are according to the input and output terminals for each mode.

偏转系统的调试

1. 水平尺寸: CN601

注意:此项调试应在色彩纯度的调试完毕后进行。 1.接收单象管图案信号。 2.插入P605于CN601,使水平尺寸达至最佳状态。过扫描 6%最小 8%TVP 10%最大

水平中心50 (I²C总线的调试) 1. 接收单象管图案信号。

2.调节"水平中心50"数据,使荧屏中心与阴极显象管的几何中心对齐。

水平中心60(I²C总线的调试) 接收AV-NTSC制式(单象管图案)信号。调节"水平中心60"数据,使荧屏中心与阴极显象管的几何中心对齐。
4. 垂直线性度:R523 1. 接收单象管图案信号。 2. 调节R523,使垂直线性度达至最佳状态。
5. 垂直中心: $501 1. 接收单象管图案信号。 2. 调节$501, 使荧屏中心与阴极显象管的几何中心对齐。
6. 垂直尺寸:R527. 1. 接收单象管图案信号。 2. 调节R527, 使垂直尺寸达至与水平尺寸的过扫描相同的尺寸。
7. 聚焦:(T601的一部分:聚焦控制) 1. 接收单象管图案信号。 2. 调节聚焦控制,以获得最佳聚焦效果。

注意:此项调试应在副对比度的调试完毕后进行。

音频/视频输入、输出的检查

1. 音频/视频输入的检查

相继触按遥控器上的电视与录象切换(TV/AV)键,检查电视机信号输入频道是否按电视频道(TV),录象频道(AV)以及电视频道(TV)的顺序循环切换。并且,检查每一设定时的荧屏图象以及声音输出是否正常地与设定输入频道对应。

C15

14D-CM@, 21D-CK1@ CV-2132CK1@

Page 16

■ FUNCTION CHECK (PICTURE AND SOUND)

1. CONTRAST KEY

1. Receive the "MONOSCOPE PATTERN" signal.
2. Select the contrast in the picture mode.
Breect the contrast in the picture mode. Using the UP/DOWN key, make sure the contrast varies accordingly.

2. BRIGHTNESS KEY

1. Receive the "MONOSCOPE PATTERN" signal
2. Select the brightness in the picture mode
Using the UP/DOWN key, make sure the black level varies accordingly.

3. SHARPNESS KEY

1. Receive the "MONOSCOPE PATTERN" signal.
2. Select the sharpness in the picture mode.
3. Using the UP/DOWN keys, make sure the sharpness varies accordingly.

4. COLOUR KEY

1. Receive the "COLOUR BAR PATTERN" signal.
2. Select the colour in the picture mode.
3. Using the UP/DOWN keys, make sure the colour varies accordingly. (Set the key to minimum and be sure that no colour is left on the screen.)

5. TINT KEY

1. Receive the NTSC colour bar signal through the AV-IN terminal.
2. Select the tint in the picture mode.
Press the UP key to make sure the tint changes toward green, and the DOWN key toward red.

6. CHANNEL SIGN DISPLAY COLOUR

Make sure that all the channel signs (1-49) appear in green on the screen (with AFT on).

7. SOUND SYSTEM

1. Receive the 6.5 MHz-modulated, 400 Hz signal. Using the SOUND SYSTEM key, select D/K and make sure the sound is heard normally.
2. Receive the 6.0 MHz-modulated, TV broadcast signal. Using the SOUND SYSTEM key, select I and make sure the sound is heard normally.
Receive the 5.5 MHz-modulated, 400 Hz signal. Using the SOUND SYSTEM key, select B/G and make sure the sound is heard normally.

FACTORY PRESETTINGS

1	Main AC switch	OFF (Last POWER ON)
2	Last channel	104
-
3.	System mode (all channels)	AUIO
	(picture and sound)
4.	Blue back round	ON
5.	Contrast	MAX
	Colour	CENTER
	Brightness	CENTER
	Tint	CENTER
	Sharpness	CENTER
6.	Sound volume	MIN
7.	AFT (all channels)	ON
8.	Skip (all channels)	Released

■各控制功能的检查(图象及声音)

1. 对比度控制键
- 1.接收单象管图案信号。 2.于图象设定状态下,选择对比度设定。 3.触标上程/下程键检查对比度最否发生变化。
2. 亮度控制键
- 接收单象管图案信号。于图象设定状态下,选择亮度设定。鲕按上称/下称键,检查累色电平最否发生变化。

3. 鲜明度控制键

接收单象管图案信号。于图象设定状态下,选择鲜明度设定。触按上称/下移键,检查鲜明度是否发生变化。

4. 彩色控制键

接收彩条信号。于图象设定状态下,选择彩色设定。触按上移/下移键,检查彩色是否发生变化。 (设彩色控制于最小位置时,画面应完全变为黑色图象)。

5. 色调控制键

1.通过声象输入端接收NTSC制式彩条信号。 2.于图象设定状态下,选择色调设定。

3.触按上移/下移键,检查色调是否变化如下:连续触按上移键,色调变绿;反之,其色调变红。

6. 频道代号表示色

所有频道(1~49)代号的表示色均为绿色(AFT ON之状态时)

7. 声音制式

1. 接收6.5HHz调制的400Hz信号。触按声音制式选择键以选择D/K制式。检查声音输出是否为正常。
接收6.0MHz调制的电视广播信号。触按声音制式选择键以选择 I 制式。检查声音输出是否为正常。
3.接收5.5MHz调制的400Hz信号。触技声音制式选择键以选择B/G制式。检查声音输出是否为正常。

■出厂前的各项功能的设定

1.主电源开关: 2.接收频道: 3.制式(全频道): (密色及声音)	关闭(OFF)(最后电源ON) 1频道(1CH) 自动(AUTO)
4. 蓝色背景:	设定(ON)
5.对比度:	最大
色彩:	中央
来度:	中央
色调 :	中央
鲜明度,	ф. ф.
6 吝啬·	- // 番小
7 自动微调(全频道),	设定(ON)
8. 频道跳跃(全频道):	解除

Page 17

TROUBLE SHOOTING TABLE

故障检修表

E17

C17

Page 18

14D-CM@, 21D-CK1@ CV-2132CK1@

TROUBLE SHOOTING TABLE (Continued)

故障检修表(接上页)

Page 19

故障检修表(接上页)

Page 20

TROUBLE SHOOTING TABLE (Continued)

故障检修表(接上页)

Page 21

TROUBLE SHOOTING TABLE (Continued)

Page 22

Page 23

TROUBLE SHOOTING TABLE (Continued)

故障检修表(接上页)

F23

C23

Page 24

Memo

Page 25

Page 26

Page 27

Page 28

Page 29

PWB-D: AV Unit 声象电路装置

Page 30

Page 31

PRINTED WIRING BOARD ASSEMBLIES (All the PWBs here are shown as viewed from their wiring sides.) 印刷电路板的组装件

(这里所有印刷电路都是从线路贴置侧显示出来的。)

Page 32

SOLID STATE DEVICE BASE DIAGRAM

固体器件基座图

Page 33

DESCRIPTION OF SCHEMATIC DIAGRAM

SAFETY NOTE:

1. DISCONNECT THE AC PLUG FROM THE AC OUTLET BEFORE REPLACEING PARTS.
2. SEMICONDUCTOR HEAT SINKS SHOULD BE REGARDED AS POTENTIAL SHOCK HAZARDS WHEN THE CHASSIS IS OPERATING.

IMPORTANT SAFETY NOTICE:

PARTS MARKED WITH " A" ( IMPORTANT FOR MAINTAINING THE SAFETY OF THE SET. BE SURE TO REPLACE THESE PARTS WITH SPECIFIED ONES FOR MAINTAINING THE SAFETY AND PERFORMANCE OF THE SET.

SERVICE PRECAUTION:

THE AREA ENCLOSED BY THIS LINE ( _____ = ___) IS DIRECTLY CONNECTED WITH AC MAINS VOLTAGE.

WHEN SERVICING THE AREA, CONNECT AN ISOLATING TRANSFORMER

BETWEEN TV RECEIVER AND AC LINE TO ELIMINATE HAZARD OF ELECTRIC SHOCK.

NOTE:

The unit of resistance "ohm" is omitted (K = 1000 ohms, M = Megaohm).
2. All resistors are 1/8 watt, unless otherwise noted.
All capacitors are μF, unless otherwise noted (P = μμF).

VOLTAGE MEASUREMENT CONDITIONS:

Voltages in parenthesis measured with no Signal. Voltages without parenthesis measured with 3mV B & W or Colour-Signal.
3. All the voltages in each point are measured with VTVM.

WAVEFORM MEASUREMENT CONDITIONS:

1. Colour bar generator signal of 2.2 V peak to peak applied at pin (52) of IC801.
2. Approximately 4.0 V AGC bias.

电路原理图的说明

安全注意事项:

1.更换电路元件时,必须先拔出电源插头,切断电源。
机芯底盘电路处工作状态时,应注意电路中半导体元件散热片高电位可能导致的电击危险。

安全使用注意要点:

标有"小"( 一、"小"( 一、"小") 一、"小"( 一、"小") 一、" 一、"小") 一、" 一、"

维修注意事项:

电路中由点划线 ( — - — )所围部分为与交流电源直接相接线路。对这些部分的线路进行维修时,应于本机与交流电源之间用隔离变压器相接,以防止不意的电击之危险。

电路单位说明:

电阻欧姆(Ω)单位予以略记(K=千欧姆, M=兆欧姆)。
2. 除特别说明者外, 图中电阻功率均为1/8瓦特。
3.除特别说明者(P=微微法拉)外,图中电容单位均为µF(微法拉)。
4.除特别说明者外,图中二极管均为1SS119。

电压测定条件:

1. 括号外的电压值为PAL制式彩色信号状态下所测。
2. 括号中的电压值为无信号状态下所测。
3. 所有的电压值均由高阻抗电压计所测。

波形测定条件:

1. 施加于IC801的销(52)处的彩条信号应为 2. 2Vp-p。
2. 调谐器AGC(自动增益控制)电压约为4V。

Page 34

頁理图

Page 35

Page 36

WAVEFORMS 波形图


16 100 Vp-	р (Н)	(17) 440 Vp	-р(Н)

Page 37

Page 38

1 @ 电路原理图

Page 39

Page 40

理图

Page 41

Page 42

Page 43

Page 44

■ AV Unit (14D-CM⊗, 21D-CK1⊗ and CV-2132CK1⊗)

■声象电路装置(型号14D-CM®、21D-CK1⑧与CV-2132CK1⑧)

Page 45

Page 46

引4D-CM⊛与CV-2132CK1⊛ 电路方框图

Page 47

Page 48

BLOCK DIAGRAM 电路方框图 □ AV Unit (14D-CM⊗, 21D-CK1⊗ and CV-2132CK1⊗)

□声象电路装置(型号14D-CM®、21D-CK1⑧与CV-2132CK1⑧)

Page 49

14D-CM@, 21D-CK1@ CV-2132CK1@

PARTS LIST

PARTS REPLACEMENT

Replacement parts which have these special safety characteristics identified in this manual: electrical components having such features are identified by "A" in the Replacement Parts Lists. The use of a substitute replacement part which does not have the

same safety characteristics as the factory recommended replacement parts shown in this service manual may create shock, fire or other hazards.

"HOW TO ORDER REPLACEMENT PARTS"

To have your order filled promptly and correctly, please furnish the following informations.

1. MODEL NUMBER	2. REF. NO.
3. PART NO.	4. DESCRIPTION
5. CODE	6. QUANTITY


Ref. No.	Part No.

PICTURF TUBF

14D-CM®

∕∧ VB1	VB370BVBK1U-S B	CRT 37cm (14")	BY
			Ъл
A DY1	RCILHO057PEZZ R	Deflection Yoke	BB
∆ L708	RCilG0023PEZZ R	Degaussing Coil	AN
	PMAGF3006CEZZ J	Purity Magnet	AK
	PSPAG0004PEZZ R	Wedge, (3 pcs used)	AB
	MSPRT0001PEFJ R	Spring, CRT	AC

21D-CK1@ and CV-2132CK1@

∕ ∧ V1	VB51JFC61X/*S R	CRT, 51cm (21")	СК
\Lambda DY1	RCiLH1576CEZZ J	Deflection Yoke	BD
\land L708	RCilg0025PEZZ R	Degaussing Coil	AW
	PMAGF3003CEZZ J	Purity Magnet	AK
	PSPAG0003PEZZ R	Wedge, (3 pcs used)	AD
	MSPRT0001PEFJ R	Spring, CRT	AC

更换零件表

更换索件

本维修说明书对具有特别安全要求的零件均用标记加以识别: 在此更换零件表中,具有特别安全要求的电路元件均用_标记以便注意识别。更换零件时、为了用户的安全以及电视机原有的工作性能,务请使用夏普规定零件。否则,可能有导致触电、火灾或其他不测事故发生的可能。

更换零件的订货方法

为了能迅速而确实地接受订货。以及正确无误地按时交货。在订货时请将下列各项明确告知

1. 型号	2. 参考编号
3. 零件编号	4. 零件名称
5. 代号	6. 数量

					ᄢᅕᄔᆞᅮᄭᇻ	דו אם נה, פ	的文贝印门

No.	*	Description	Code	Ref. No.	Part No.	*	Description	Code

PRINTED WIRING BOARD ASSEMBLIES (NOT REPLACEMENT ITEM)

附入门口头名巴尔佐的文化如门

14D-CMa

PWB-A DUNTK8600WEV	3 – Mother Unit
PWB-C DUNTK8598WEV	0 – CRT Socket Unit
PWB-D DUNTK8599WEV	3 – AV Unit	—

21D-CK1@

PWB-A	DUNTK8600WEV0	-	Mother Unit	_
PWB-C	DUNTK8446WEV1	-	CRT Socket Unit	_
PWB-D	DUNTK8599WEV0	-	AV Unit

CV-2132CK1@

PWB-A	DUNTK8600WEV1	-	Mother Unit	-
PWB-C	DUNTK8446WEV1	-	CRT Socket Unit	-
PWB-D	DUNTK8599WEV0	-	AV Unit	-

----- End of PICTURE TUBE -----

----- End of P.W.B. ASSEMBLIES -----

Page 50

Page 51

Page 52

Ref. No.		Part No.		*	Description	Code	Ref. No.
PWE	B-A	DUNT	K8	86		/1	0605
		MUIH	EK	U			Q608
			TUN	٩E	R
NOTE:	THE ASSI	PARTS HERE EMBLY BUT I	SHO NOT		N ARE SUPPLIED AS A DEPENDENTLY.	N	₼ 0701
∕∧ TU201	VTI			1	Tuner, VHF/UHF	BB
				•	(14D-CM@ CV-213)	рск1@)	A 0702
∕∧ TU201	νтυ	VTSH6HD	02/	L	Tuner, VHF/UHF	BF	0801
					(21D-CK1@)		0802
							Q803
							Q804
							Q1001
		INTEGR/	٩ΤΕ	D	CIRCUITS		Q1002
IC301	VHi	TDA7056	۹-1	R	Audio Output	AP	Q1003
IC302	VHi	TDA7056	۹-1	R	Audio Output	AP	Q1004
					(21D-CK1🛞)		Q1007
IC501	ЧΗі	LA7837//	/ - 1	J	Vertical Output	AH	Q1008
IC601	VHi	TA78085/	/- 1	J	+ 8V Regulator	AD	Q1009
IC602	νні	TA78095	/-1	1	+ 9V Regulator	AE
⚠ IC751	RH-	i X 1 7 7 9 C E	ZZ	٦	Power Regulator	AR
IC801	VHi	M 5 2 3 4 3 S F	- 1	J	Video/Chroma	BD
IC802	VHi	TDA4661	/-1	J	1H-DL	AS
IC901	VHi	M 5 2 3 2 5 P	/-1	J	SECAM	AV	D301
					(21D-CK1@, CV-213	2CK1@)
IC1001	RH-	i X 2 5 5 1 C E	ZZ	R	Microprocessor	AY	D302
IC1002	RH-	iX2448CE	N 1	J	Memory	AN	D302
IC1003	RH-	i X 0 0 3 7 C E	ZZ	J	Zener IC	AF
IC1004	VHi	PST529C2	2 - 1	J	Reset Switch	AD	D303
							D501
							D502
		ТРА	NC	ст	OPS		D503
0201	V S 2	SC1906/	1 E		25C1906	٨٢	D602
0201	V S 2	SA1015V/	1 6	1	2501500		D603
0205	V 5 2	SA1015Y/	1 F	ī	25A1015(Y)	ΔC	D605
0206	VS2	SA1015Y/	1 F	ī	25A1015(Y)	AC	D607
0207	V S 2	SC945AP	/_ 1	Ţ	25C945A(P)	ΔR	D608
0303	VS2	SC945AP	/-1	J	25C945A(P)	AB	D609
0304	VS2	SC2236Y	/-1	ī	2SC2236(Y)	AD	D610
					(14D-CM@)
Q304	VS2	SD880-G/	/-1	J	2SD880	AF	D610
•					(21D-CK1@, CV-213	2CK1@)
Q305	V $ 2	SC945AP	/-1	J	2SC945A(P)	AB	D611
Q501	V S 2	SC945AP	/-1	J	2SC945A(P)	AB	D612
Q502	VS2	SC1815GW	/-1	J	2SC1815(GW)	AB	D613
Q503	V S 2	SA1015Y/	1 E	J	2SA1015(Y)	AC	D614
Q504	V S 2	SA1015Y/	1 E	J	2SA1015(Y)	AC	D615
⚠ Q601	V S 2	SD1877//	1 E	٦	2SD1877	AL	D616
					(14D-CM⑧)		D617
⚠ Q60 1	V S 2	SD2095//	1 E	J	2SD2095	AN	D618
					(21D-CK1@, CV-213	2CK1@)	D619
Q602	V S 2	S C 2 2 7 1 E	/-1	J	2SC2271	AD
Q603	VS2	SD880-G/	- 1	J	2SD880	AF	D624
Q604	VS2	5 D 8 8 0 - G /	'-1	J	2SD880	AF	D626

	TRANSISTORS	5 (0	Continued)
Q605	V$2$A1015Y/1E	J	2SA1015(Y)	AC
Q608	V S 2 S C 9 4 5 A P / - 1	J	2$C945A(P)	AB
∖ Q701	V $ 2 $ D 1 8 8 3 //- 1	J	2SD1883	AL
0701			(14D-CM@, CV-2132CK1	(A)
QVUI	V 5 2 5 D 1 8 8 4 / / - 1	J		AN
0707	VCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
	V 5 2 5 C 9 4 5 A P / - 1	,	23C943A(P)	AB
0801	V525A10157/1E	1	25A1015(T)	AC
Q802	VS25A10151/1E	1	25A1015(1)	AC
0804	VS25C945AP/-1	ı I	25A1015(1) 25C9/5A(P)
0100	1 V$2$C1815GW-1	1	25C1815(GW)
0100	2 VS2SC945AP/-1	J	25C945A(P)	ΔR
0100	3 VS2SA1015Y/1E	Ţ	2SA1015(Y)	AC
0100	4 VS2SC383-WT-1	j	2SC383(WT)	AE
0100	7 VS2SC945AP/-1	Ĵ	2SC945A(P)	AB
Q100	8 VS2SC945AP/-1	J	2SC945A(P)	AB
Q100	9 VS2SC3399//-1	J	2SC3399	AB



	DIO	DE	S
D301	VHD1SS119//1E	J	1$$119	AA
			(21D-CK1@)
D302	RH-DX0224CEZZ	J	(14D-CM⑧)	AB
D302	RH-DX0247CEZZ	J	(21D-CK1@,	AE
			CV-2132CK1@)
D303	V H D 1 S S 1 1 9 // 1 E	J	155119	AA
D501	RH-DX0127CEZZ	٦	1$5295G	AC
D502	RH-DX0279CEZZ	J	1N4005	AB
D503	VHD1SS119//1E	J	1$$119	AA
D602	RH-EX0310CEZZ	٦	Zener Diode, 8.2V	AA
D603	VHD1SS119//1E	J	1$$119	AA
D604	VHD1SS119//1E	J	155119	AA
D605	VHD155119//1E	J	155119	AA
D607	VHD1SS119//1E	J	155119	AA
D608	VHD155119//1E	J	155119
D609	RH-EXU293CEZZ	, ,	Zener Diode
Delo	KH-EXUSUBLEZZ	J		АВ
D610	PU EV0200CE77	,	(14D-CIVIE)	• •
DOIG	KH-EXUSUOCEZZ	,
D611			155110
D612	VHD155119//1E	1	155119	ΔΔ
D613	VHD155119//1E	1	155119	ΔΔ
D614	RH-DX0073CEZ7	ī	RH17	AD
D615	VHD1$$119//1E	ī	155119	AA
D616	RH-DX0302CEZZ	J		AC
D617	RH-DX0279CEZZ	Ĵ	1N4005	AB
D618	VHD1$$119//1E	J	1$$119	ΑΑ
D619	VHD1SS119//1E	Ĵ	1$$119	AA
		-	(14D-CM⑧)
D624	VHD1$$119//1E	J	1$$119	ΑΑ
D626	VHD1$$119//1E	J	1$$119	AA

Part No.

Description

Code

Page 53

						Coue
PW	B-A	DU MO		86 8 U	00WEV3/V0/V1 NIT (Continued)
		DIC	DDES (	Cor	ntinued)		-
D627	VHD	1551	19//1E	J	1SS119	AA
D628	VHD	1551	19//1E	J	1$$119	АА
D701	RH-D	X027	9CEZZ	J.	Rectifier (14D-CM@)	AB
	RH-D	X005	5TAZZ	J	Rectifier (21D-CK1@, CV-2132CK1@)	AD
∕∆ D702	RH-D	X027	9CEZZ	J	Rectifier (14D-CM@)	АВ	/
▲ D702	RH-D	X005	5TAZZ	٦	Rectifier (21D-CK1@, CV-2132CK1@)	AD
⚠ D703	RH-D	X027	9CEZZ	J	Rectifier (14D-CM@)	AB
⚠ D703	RH-D	X005	5TAZZ	J	Rectifier (21D-CK1@, CV-2132CK1@)	AD	/
⚠ D704	RH-D	X027	9CEZZ	J	Rectifier (14D-CM@)	АВ	2
▲ D704	RH-D	X005	5TAZZ	J	Rectifier (21D-CK1@, CV-2132CK1@)	AD	/
⚠ D705	RH-D	X013	OCEZZ	J	EU-1Z	AE	-
	RH-D	X013	OCEZZ	J	EU-1Z	AE
⚠ D707	RH-D	X016	4CEZZ	J		AC
⚠ D708	RH-E	X 0 0 9	2 C E Z Z	J	Zener Diode, 3.9V (14D-CM@)	AB
∕ ∧ D708	RH-E	X 0 6 3	9 C E Z Z	J	Zener Diode, 3.9V	AB
					(21D-CK1@, CV-2132C	<1@)
🗥 D709	RH-D	X030	2CEZZ	J		AC
D732	RH-D	X 0 2 2	6CEZZ	J	(14D-CM@)	AC
D732	RH-D	X038	8CEZZ	J	(21D-CK1@, CV-2132CK1@)	AE
D801	VHD1	1 5 5 1 1	9//1 E	J	155119	AA
D802	VHD 1	\| $ $ 1 1	9//1E	J	155119	AA
D803	VHD1	\| $ $ 1 1	9//1E	J	1SS119	AA
D804	VHD1	5511	9//1E	J	1$$119	AA
D805	VHD1	5511	9//1E	J	1$$119	AA
D1001	RH-E	X 0 2 9	4 C E Z Z	J	Zener Diode	AA
D1002	VHD1	5511	9//1E	J	1$$119	AA
D1003	RH-E	X 0 3 2 .	2 C E Z Z	J	Zener Diode	AA
D1004	VHD1	$$11	9//1E	J	1$$119	AA
D1005	RH-EX	X 0 3 0	1 C E Z Z	٦	Zener Diode	AA
D1006	RH-E)	X 0 3 0	1 C E Z Z	٦	Zener Diode	AA
D1007	RH-E)	X 0 3 2 !	5 C E Z Z	٦	Zener Diode	AA
D1008	RH-E)	X 0 3 2 !	5 C E Z Z	٦	Zener Diode	AA
D1009	RH-E)	X 0 3 2 !	5 C E Z Z	J	Zener Diode	AA
D1010	RH-E)	K 0 3 2 !	5 C E Z Z	٦	Zener Diode	AA
D1011	RH-E)	K032!	5 C E Z Z	J	Zener Diode	AA
D1012	RH-E)	K030'	1 CEZZ	J	Zener Diode	AA
D1013	KH-E)	KU325	SCEZZ	J	Zener Diode	AA
D1014	RH-E)	(0325	CEZZ	J	Zener Diode	AA
D1015	VHD1	5511	9//1E	J	155119	AA
D1016	RH-E)	(0325	SCEZZ	J	Zener Diode	AA
D1017	KH-E)	(0325	SCEZZ	1	Zener Diode	AA
D1018	KH-EX	(0325	CEZZ	J	Zener Diode	AA	Δ
D1019		0290		J	LED, Red/Green	AC
D1020		0295		J	Zener Diode	AA	Δ
D1021	кн-ех	0295	CEZZ	1	∠ener Diode	AA

Ref. No.

Part No

Code

Ref. No.	Part No.		Description	Code
	DIODES (C	on	tinued)
D1022	RH-EX0295CEZZ	J	Zener Diode	AA
D1023	RH-EX0295CEZZ	J	Zener Diode	АА
D1024	RH-EX0295CEZZ	J	Zener Diode	AA
D1025	VHD1$$119//1E	J	1SS119	AA
D1045	RH-EX0325CEZZ	J	Zener Diode	AA
D1047	VHD1SS119//1E	J	1SS119	AA
D1048	RH-EX0325CEZZ	J	Zener Diode	AA
D1049	RH-EX0325CEZZ	J	Zener Diode	AA
l VA702	RH-VX0033CEZZ	J	Varistor	AD

PACKAGED CIRCUITS

\land PR701	RMPTP0028CEZZ	J	Positive Coefficient	AG
			Thermistor
			(14D-CM@)
\land PR701	RMPTP0061CEZZ	J	Positive Coefficient	AV
			Thermistor
			(21D-CK1@, CV-2132CK	(@)
X801	RCRSB0008PEZZ	R	Crystal, 4.43 MHz	ΑН
X802	RCRSB0009PEZZ	R	Crystal, 3.58 MHz	AL
			(14D-CM@, 21D-CK1@)

COILS AND TRANSFORMERS


CF301	RFilC0084CEZZ	J	Ceramic Filter, 6.0 MHz	AF
CF302	RFilC0268CEZZ	J	Ceramic Filter, 6.0 MHz	AD
CF601	RFILA0078CEZZ	J	Ceramic Filter, 500 kHz	AF
CF1001	RFilC0091GEZZ	J	Ceramic Filter, 4 MHz Osc	. AD
L201	VP-XF1R8K0000	J	Coil, 1.8µH	AB
L204	VP-DF120K0000	J	Coil, 12μH	AB
L205	VP-XF2R2K0000	J	Coil, 2.2µH	AB
L206	VP-XF1R2K0000	J	Coil, 1.2µH	AB
L209	VP-CF680K0000	J	Coil, 68μH	АВ
L301	VP-DF101K0000	J	Coil, 100μΗ	AB
L304	VP-CF3R3K0000	J	Coil, 3.3µH	AB
L306	VP-DF150K0000	J	Coil, 15µH	AB
L601	VP-CF1R5M0000	J	Coil, 1.5 µ H	AB
			(14D-CM⑧)
L601	VP-CF1R0M0000	J	Coil, 1µH	AB
			(21D-CK1@, CV-2132CK1	( )
L602	RCiLZ0004PEZZ	R	Linearity Coil	AN
			(14D-CM ^(A) )
L602	RCILZ0007PEZZ	R	Linearity Coil	AK
			(21D-CK1@, CV-2132CK1	@)
L603	RCilP0088CEZZ	J	3.3mH	AG
L604	VP-CF3R3K0000	J	Coil, 3.3µH	AB
L605	VP-CF100K0000	J	Coil, 10µH	AB
L632	RCILP0050CEZZ	J	Peaking Coil	AE
L701	RCilF0076CEZZ	J	Line Filter	AK
			(14D-CM⑧)
L701	RCILF0007PEZZ	R	Line Filter	AL
			(21D-CK1@, CV-2132CK1	( )

Page 54

Ref. No.	Part No.	*	Description	Code	Ref. No.	Part No.	*	D	escri	otion (	Code
PWE	B-A DUNTK	86	00WEV3/V0/V1			CAPACITORS	5 (C	Continu	ued)
	MOTHER		NIT (Continued)	Ň	C203	VCQYTA1HM104K	J	0.1	50V	Mylar	AC
			in (continued)	/	. C204	VCEAGA1HW105M	J	1	50V	Electrolytic	AC
co	DILS AND TRANSF	ORI	MERS (Continued)		C205	VCEAGA1HW225M	J	2.2	50V	Electrolytic	AB
	RCILF0105CEZZ	: J	Line Filter	AP	C206	VCEAGA1HW105M	J	1	50V	Electrolytic	AC
∕∆ L705	VP-CF3R3K0000	J	Coil, 3.3µH	AB	C207	VCFYFA1HA104J	J	0.1	50V	M. Polyester	• A A
⚠ L712	VP-CF330K0000	J	Coil, 33µH	AB	C208	VCEAGA1CW107M	J	100	16V	Electrolytic	AB
			(14D-CM@, CV-2132C	к1⊗)	C209	VCKYMN1CY103N	J	0.01	16V	Ceramic	AA
▲ L712	VP-CF100K0000	J	Coil, 10μH	AB	C210	VCKYMN1CY103N	J	0.01	16V	Ceramic	АА
			(21D-CK1@)		C211	VCKYMN1CY103N	J	0.01	16V	Ceramic	АА
L801	VP-DF470K0000	J	Coil, 47μH	AB	C212	VCKYMN1CY103N	J	0.01	16V	Ceramic	ΑΑ
			(14D-CM ^(A) )		C213	VCKYMN1CY103N	J	0.01	16V	Ceramic	ΑΑ
L801	VP-DF101K0000	J	Coil, 100µH	AB	C216	VCEAGA0JW108M	J	1000	6.3V	Electrolytic	AC
			(21D-CK1@, CV-21320	CK1⊗)	C217	VCKYMN1CY103N	J	0.01	16V	Ceramic	AA
L802	VP-DF470K0000	L (	Coil, 47µH	AB	C218	VCEAGA1HW224M	J	0.22	50V	Electrolytic	AA
			(14D-CM@)		C219	VCEAGA1HW474M	J	0.47	50V	Electrolytic	АА
L802	VP-DF101K0000	L (	Coil, 100µH	AB	C220	VCKYMN1CY103N	J	0.01	16V	Ceramic	AA
			(21D-CK1@, CV-21320	CK1⊗)	C222	VCFYFA1HA104J	J	0.1	50V	M. Polyester	· AA
L901	VP-XF8R2K0000	J	Coil, 8.2µH	AB	C225	VCCCPA1HH1R0C	J	1p	50V	Ceramic	ΑΑ
			(21D-CK1@, CV-21320	:K1⊗)	C301	VCQYTU1HM223J	R	0.022	50V	Mylar	AC
L1001	VP-XF120K0000	J	Coil, 12μH	AB	C302	VCQYTA1HM103K	J	0.01	50V	Mylar	АВ
L1002	VP-XF120K0000	J	Coil, 12µH	AB	C303	VCQYTU1HM223J	R	0.022	50V	Mylar	AC
L1004	VP-DF120K0000	) J	Coil, 12µH	AB				(21D-C	K1⊗	)
SF201	RFiLC0308CEZZ	; J	Surface Acoustic	AM	C304	VCKYMN1CY103N	J	0.01	16V	Ceramic	AA
			Wave Filter		C305	VCEAGA1HW104M	J	0.1	50V	Electrolytic	АА
T201	RCILI0550CEZZ	z J	IF Coil	AD	C306	VCEAGA1CW106M	J	10	16V	Electrolytic	АА
T202	RCILD0229CEZZ	j	PIF Detector	AE	C307	VCKYMN1CY103N	J	0.01	16V	Ceramic	ΑΑ
∕∆ T601	RTRNF0063PEZZ	Z R	F.B.T. (Flyback Trans.)	BE	C308	VCEAGA1CW337M	J	330	16V	Electrolytic	AC
			(14D-CM@)		C309	VCFYHA1HA474J	J	0.47	50V	M. Polyester	· AC
∆ T601	RTRNF0069PEZZ	Z R	F.B.T. (Flyback Trans.)	BF	C310	VCFYHA1HA474J	J	0.47	50V	M. Polyester	· AC
			(21D-CK1@, CV-21320	:K1@)				(21D-C	К1@	)
Т602	RTRNZ0179CEZZ	R	Horizontal Drive Trans	s. AE	C311	VCKYPA2HB102K	J	1000p	500V	Ceramic	ΑΑ
			(14D-CM⑧)		C312	VCEAGA1EW477M	J	470	25V	Electrolytic	AD
\land т602	RTRNZ0026PEZZ	ZR	Horizontal Drive Trans	s. AH				(14D-C	MØ)
			(21D-CK1@, CV-21320	:K1⊗)	C312	VCEAGA1EW108M	J	1000	25V	Electrolytic	AD
∕ ∆ T701	RTRNZ0050PEZZ	ZR	Power Regulator Tran	s. AU				(21D-C	к1⊗	, CV-2132CK	1@)
			(14D-CM ^(A) )		C313	VCEAGA1CW106M	J	10	16V	Electrolytic	ΑΑ
	RTRNZ0037PEZZ	ZR	Power Regulator Tran	s. AY	C319	VCKYD41HB102K	J	1000p	50V	Ceramic	ΑΑ
			(21D-CK1 ^® )		C322	VCKYMN1CY103N	J	0.01	16V	Ceramic	АА
	RTRNZ0035PEZZ	Z R	Power Regulator Tran	s. AW	C327	VCQYTA1HM103K	J	0.01	50V	Mylar	AB
			(CV-2132CK1@)		C328	VCEAGA1EW477M	J	470	25V	Electrolytic	AD
T1001	RCilb0008Pezz	. R	On Screen Display	AG	C329	VCKYMN1CY103N	J	0.01	16V	Ceramic	ΑΑ
			· •		C330	VCKYMN1CY103N	J	0.01	16V	Ceramic	ΑΑ
					C331	VCCCPA1HH470J	Ĵ	47p	50V	Ceramic	AA
					C333	VCKYPA1HF103Z	Ĵ	0.01	50V	Ceramic	AA
	CON	TRC	DLS		C334	VCKYMN1CY103N	J	0.01	16V	Ceramic	AA

R523	RVR-M4622GEZZ	J	2.2k(B) Vert. Linearity	AB
R527	RVR-M4631GEZZ	J	68k(B) Vert. Size	AB
\land R711	RVR-M4324CEZZ	J	220(B) 115V Adj.	AC

CAPACITORS

C201	VCEAGA1CW477M	J	470	16V	Electrolytic	AC
C202	VCEAGA1HW105M	J	1	50V	Electrolytic	AC

C402

C501

C502

C503

C504

C505

C401 VCFYFA1HA224J J 0.22 50V M. Polyester AB

VCKYPA2HB102K J 1000p500V Ceramic

VCKYMN1CY103N J 0.01 16V Ceramic

C507 VCQYTA1HM104K J 0.1 50V Mylar

VCEAGA1HW225M J 2.2 50V Electrolytic AB

VCEAGA1VW477M J 470 35V Electrolytic AD

VCEAGA1VW107M J 100 35V Electrolytic AC

VCEAGA1EW108M J 1000 25V Electrolytic AD C506 VCEACA1HC225M J 2.2 50V Electrolytic AC

АА

Page 55

14D-CM^®, 21D-CK1^® CV-2132CK1^®

Ref. No.	Part No.	*	Descript	ion (	Code	Ref. No.	Part No.	*	Description	Code
PW	B-A DUNTK	86	00WEV3/	/V0/V1			CAPACITOR	5 (0	Continued)
	MOTHER	U	NIT (Conti	inued)		C638	VCFYFA1HA224J	J	0.22 50V M. Polyest	er AB
	CARACITOR	c //				- C640	VCEAGA1EW227M	J	220 25V Electrolytic	AC
CE09		ין כ		1	• •	C641	VCEAGA1AW22/M	ر ر	220 10V Electrolytic	: AB
C508		, I I		iylar Annaria		A C/01	RC-FZ0091CEZZ	J	0.22 AC250V Special	, AE
C509	VCEACA1HUM107M			eramic Io etro lutio		A 6704			(14D-CM@, 21D-CK1@	•)
C510		ני ו	100 50V EI	lectrolytic			RC-FZUU66CEZZ	J	0.1 AC250V Special	AE
C512		נ ויי		lectrolytic		A C702			(CV-2132CK1@)
C512		. J 1	470 161 50	iyiar Iostrolutio	AB		RC-KZ0029CEZZ		0.01 AC250V Ceramic	AC
C51/		, r	4/0 16V EI			A C704			0.01 AC250V Ceramic	AC
C515	VCEAGA1CW106M	ر ا	10 167 C	eramic loctrolutic		A C705		, L	0.01 AC250V Ceramic	AC
C515						A C706		ן י	0.01 AC250V Ceramic	AC
C601	VCEAGA1CW227M	ר. ו	220 16V E	eranne loctrolutic		A C709		נו	150 400V Electrolytic	: AN
C602		1	220 16V EI			A C708		1	0.01 AC250V Ceramic	AC
C602	VCEAGA1CW106M	1	10 167 5	loctrobetic			VCEAGATEW 107IVI	J		: AD
C604	VCEAGATEW TOOM	ר ו				A C700		,
C605		ر ر				M C109	VCEAGATCW477M	J	4/0 16V Electrolytic	AC
C605		ני	0.01 500 10	iylar Mər	AB	A 6700	VCEACATEWOOTA		(21D-CK1@)
C607		. J	0.022 500 10	lyiar Iular			VCEAGATEW22/IV	J	220 25V Electrolytic	AC
C608		נ. ו		iyiar oromic	AB	A C710			(CV-2132CK1@)
C609		,	100005001 Ce	oramic				1
C610	VCEVSB2EB8221	1	0.082.250V.M				RC-QZA6ZITATJ	1	820p iviyiar	AB
A C611		,	6800p1 6kV B	olyoro Film	AD	A C711
	VCTT DJCA0821	2		овріотіні	AL		RC-QZA4711ATJ	J	470p iviyiar	AB
A C611	VCEPPD3CA1031	1			AE	A C711				• •
	Verribberrobb	,	(21D-CK1@ C	01901011111 V 2122001			VCQTIATHIVIDZJ	J		АА
C612	RC-K70038CF77	I	470n 2kV Ce	aramic		A C712		ı.	(CV-2132CK 199)
0012			(14D-CMQ)	eranne	Ab		VCFTFATHA474J	J	(14D CMA) CV 2122CV	1/201
C612	RC-K70040CF77	ł	820n 2kV Ce	eramic		A C712	VCEVENIHAGRAL	1	0.69 FOV M Polyotta
		-	(21D-CK1@ C	V-21326K1	ه ۱	/// C/12	VCITIATIIA004J	J	(21D CK1@)	I AD
C613	VCOPSD2DA224J	Т	0.22 200V M	vlar		A (713		ī	10000500V Coramic	• •
C614	VCKYPA2HB221K	Ĵ	220p 500V Ce	eramic		A C714		, I	0.012 50V Mylar
C615	VCFPPD2DB434J	Ĵ	0.43 200V Po	olvoro Film	AE				(14D-CMA) CV-2132CK	1@)
			(14D-CMA)			∧ c714	VCOYTA1HM563K	ī	0.056 50V Mylar
C615	VCFPPD2DB564J	J	0.56 200V Pc	olvpro Film	AF			•	(21D-CK1@)
			(21D-CK1@, C	V-2132CK1	A)	∕ ∧ C715	VCEAGA1HW105M	ł	1 50V Electrolytic	۵C
C616	VCQPSC2DA104J	J	0.1 200V M	vlar	AC	▲ C716	VCEAGA1HW105M	1	1 50V Electrolytic	ΔC
			(21D-CK1@, C	V-2132CK1	A)			•	(14D-CM@ 21D-CK1@)
C617	VCEAGA2AW106M	J	10 100V Ele	ectrolytic	AC	∕ ∆ C716	VCEAGA1HW225M	I	2.2 50V Electrolytic	ΔR
C618	VCQYTA1HM104K	J	0.1 50V M	ylar	AC		·	•	(CV-2132CK1@)	ΑŲ
C619	VCKYPA2HB102K	J	1000p500V Ce	eramic	AA	∧ C7 17	VCOPSC2JA333K	J	0.033 630V Mylar	ΔB
C620	VCEAGA1EW477M	J	470 25V Ele	ectrolytic	AD	∕ €718	VCKYPH3DB561K	J	560p 2kV Ceramic	AC
C621	VCEAGA1HW106M	J	10 50V Ele	ectrolytic	AC	∕ ∱ C719	VCOYTA1HM273K	j	0.027 50V Mylar	AB
C622	VCEAGA1CW227M	J	220 16V Ele	ectrolytic	AC	∕ € C720	VCEAGA1JW476M	j	47 63V Electrolytic	ΔR
C623	VCEAGA1CW477M	J	470 16V El€	ectrolytic	AC	▲ C721	RC-KZ0024CEZZ	J	1000p2kV Ceramic	Δ
C624	VCEAGA1CW227M	J	220 16V Ele	ectrolytic	AC	▲ C723	VCKYPA2HB102K	Ĵ	1000p500V Ceramic	ΔΔ
C625	VCEAGA1CW477M	J	470 16V Ele	ectrolytic	AC	▲ C724	RC-KZ0029CEZZ	J	0.01 AC250V Ceramic	AC
C626	VCEAGA1CW107M	J	100 16V Ele	ectrolytic	АВ	∧ C725	VCFYHA1HA474J	j	0.47 50V M Polveste	r AC
C627	VCEAGA1CW106M	J	10 16V Ele	ectrolytic	ΑΑ	▲ C726	VCKYPA1HB331K	Ĵ	330p 50V Ceramic	ΔΔ
C628	VCEAGA1AW477M	J	470 10V Ele	ectrolytic	AC	▲ C729	VCEAGA1CW227M	J	220 16V Electrolytic	ΔΓ
C629	VCCCPA1HH220J	J	22p 50V Ce	ramic	АА			-	(14D-CM@)
C631	VCEAGA1CW106M	J	10 16V Ele	ectrolytic	ΑΑ	∕∆ C729	VCFYHA1HA474ι	J	0.47 50V M Polverte	r۵C
C634	VCFYFA1HA224J	J	0.22 50V M.	Polyester	АВ		_ ·	-	(21D-CK1@ CV-2132CK	1@\
C637	VCEAGA1CW476M	J	47 16V Ele	ectrolytic	AB	C731	VCEAGW2CW227M	J	220 160V Flectrolutic	ΔK
								-

Page 56

Ref. No.		Part No.	*	Description	Code	Ref. No.	Part No.	*	I	Descript	tion (	Code
PWE	3-A	DUNTK	36	00WEv3/v0/v	′1		CAPACITORS	; (C	Contir	ued)
		MOTHER	U	NIT (Continued	4)	C909	VCCCPA1HH390J	J	39p	50V C	leramic	AA
,					~				(21D-	-CK1⊗,(	CV-2132CK	1@)
		CAPACITORS	5 (C	Continued)		C1001	VCEAGA1EW477M	٦	470	25V E	lectrolytic	AD
C732	RC-I	K Z 0 0 2 4 C E Z Z	J	1000p2kV Ceramic	AC				(14D-	-CM⊗, 2	1D-CK1@)
				(14D-CM ^® , 21D-CK1	(⊗)	C1002	VCEAGA1CW106M	J	10	16V E	lectrolytic	AA
C732	RC-I	KZ0057CEZZ	J	1500p2kV Ceramic	AD	C1003	VCEAGA0JW107M	J	100	6.3V E	lectrolytic	AB
				(CV-2132CK1@)		C1004	VCEAGA1HW105M	٦	1	50V E	lectrolytic	AC
∧ C736	RC-I	KZ0029CEZZ	J	0.01 AC250V Ceramic	c AC				(14D-	CM@, 2	:1D-CK1@)
C737	VCE	AGH2CW107M	J	100 160V Electroly	rtic AE	C1004	VCEAGA0JW107M	J	100	6.3V E	lectrolytic	AB
∧ C741	VCK	YPA2HB472K	J	4700p500V Ceramic	AB				(CV-2	132CK1	(()
∕ ∆ C742	VCF	YFA1HA394J	J	0.39 50V M. Polye	ster AC	C1005	VCEAGA0JW107M	J	100	6.3V E	lectrolytic	AB
A				(14D-CM@, 21D-CK1	(A)	C1006	VCKYMN1CY103N	1	0.01	16V C	eramic	AA
// C/42	VCF	YFA1HA104J	J	0.1 50V M. Polyes	ster AA	C1007	VCEAGA0JW107M	1	100	6.3V E	lectrolytic	AB
A 6747			,	(CV-2132CK1@)		C1008	VCKYD41CY103N	1	0.01	16V C	eramic	AA
// (/4/	KC-I	KZUZ65CEZZ	1	1500p4kV Ceramic	AE	C1009	VCKYD41CY103N	Ţ	0.01	16V C	eramic	AA
C801	VCQ	YTATHM104K	1	0.1 50V Mylar	AC	C1010	VCEAGA1HW335M	1	3.3	50V E	lectrolytic	AB
C802				0.1 50V Wiylar		C1011	VCEAGATCWTUBIVI	1	10	16V E	lectrolytic	AA
(803	VCEA		1	47 Ibv Electroly		C1012	VCCSPATHL330J	1	33p	50V C	.eramic
C804			1	1000p50V Ceramic		C1013	VCCSPATHL330J	1	33p 22-	500 0	.eramic
C805			1	0.01 16V Ceramic		C1014	VCCSPATHL330J	1	33p	500 0	.eramic
C800			ר ו	9n 50V Ceramic		C1015	VCCSPATHL330J	L L	33p	50V C	eramic
C807	VCE		ר ו	1 50V Ceramic		C1016		נ	0.1		/iyiar	AC
C808			י ו			C1017		1	10		/iyiar 'lastrolutia
C810		CPA100133K	ר ו	18p 50V Ceramic		C1018		נו	1000	50V E
6010	vec	ci Ainii 1003	1		م	C1079		ר ו	1000	501 0	oramic
C811	VCE	AGA1HW106M	Т	10 50V Electroly		C1020		ר ו	0.01	16V C	oramic
(812	VCO	YTA1HM104K	, I	0.1 50V Mylar		C1021		, L	0.01	167 C	'oramic
(813	vco	YTA1HM104K	1	0.1 50V Mylar		C1022	VCEAGA0IW107M	1	100	63V F	lectrolytic
C814	VCFA	AGA1CW107M	J	100 16V Electroly		C1023	VCEAGA0JW107M	1	100	63V E	lectrolytic
C815	VCK	YPA1HF1037	Ĩ	0.01 50V Ceramic		C1025	VCEAGA1CW106M	,	10	16V E	lectrolytic
C816	vcc	SPA1HL470J	J	47p 50V Ceramic	ΔΔ	C1026	VCCCPA1HH1011	ļ	100n	50V C	'eramic	ΔΔ
C817	vcc	SPA1HL470J	J	47p 50V Ceramic	AA	C1029	VCEYEA1HA104	J	0.1	50V N	A Polvester	· 🗛
C818	vcc	SPA1HL470J	J	47p 50V Ceramic	AA	0.025			0.1	501 1	in orgester
C819	vco	YTA1HM104K	J	0.1 50V Mylar	AC
C820	VCEA	AGA1AW477M	J	470 10V Electroly	tic AC
C821	VCE/	AGA1CW106M	J	10 16V Electroly	tic AA
C822	VCK	YMN1CY103N	J	0.01 16V Ceramic	AA		RESIS	тс	DRS
C824	VCEA	AGA1CW476M	J	47 16V Electroly	tic AB	R201	VRD-RA2BE151J	1	150	1/8W Ca	rbon	АА
C825	VCK	YMN1CY103N	J	0.01 16V Ceramic	AA			-	(14D-	CMA.2	1D-CK1@)
C826	vcc	CPA1HH6R0D	J	6p 50V Ceramic	AA	R201	VRD-MN2BE151J	J	150	1/8W Ca	irbon	ΑΑ
C901	VCE4	GA1CW476M	J	47 16V Electroly	tic AB				(CV-2	132CK1	A)
				(21D-CK1@, CV-2132	CK1@)	R202	VRD-MN2BE392J	J	3.9k	1/8W Ca	rbon	AA
C902	VCK	YMN1CY103N	J	0.01 16V Ceramic	AA	R203	VRD-MN2BE562J	J	5.6k	1/8W Ca	irbon	ΑΑ
				(21D-CK1@, CV-2132	CK1⊗)	R204	VRD-MN2BE471J	J	470	1/8W Ca	irbon	ΑΑ
C903	VCF	YHA1HA474J	J	0.47 50V M. Polyes	ster AC	R205	VRD-RA2EE221J	J	220	1/4W Ca	rbon	ΑΑ
				(21D-CK1@, CV-2132	CK1⊗)	R211	VRD-MN2BE220J	J	22 ⁷	1/8W Ca	rbon	АА
C904	VCF	YHA1HA474J	J	0.47 50V M. Polyes	ster AC	R212	VRD-MN2BE151J	J	150 °	1/8W Ca	rbon	AA
				(21D-CK1@, CV-2132	CK1⊗)	R217	VRD-MN2BE473J	J	47k ^-	1/8W Ca	rbon	AA
C906	VCC	CPA1HH470J	J	47p 50V Ceramic	AA	R218	VRD-MN2BE473J	J	47k '	1/8W Ca	rbon	AA
				(21D-CK1@, CV-2132	CK1⊗)	R219	VRD-RA2BE100J	J	10 ^-	1/8W Ca	rbon	AA
C907	νςκι	YMN1CY103N	J	0.01 16V Ceramic	AA	R220	VRD-MN2BE392J	J	3.9k '	1/8W Ca	rbon	AA
				(21D-CK1@, CV-2132	CK1⊗)	R222	VRD-MN2BE562J	J	5.6k ′	1/8W Ca	rbon	АА
C908	VCF	YFA1HA104J	J	0.1 50V M. Polyes	ster AA	R223	V R D - M N 2 B E 4 7 2 J	J	4.7k ′	1/8W Ca	rbon	AA
				(21D-CK1@, CV-2132	CK1⊗)

Page 57

Ref. No.	Part No.	,	Description	Code	Ref. No.	Part No.	,	* D	escription	Code
PW	B-A DUNTK	86	500WEv3/v0/v	/1		RESISTORS	(C	Continu	ed)
	MOTHER	₹٤	JNIT (Continued	d)	∧ R513	RR-XZ0035TAZZ		22 1/	4W Fuse Resisto	r AB
					R514	VRD-RM2HD102J		J 1k 1/	2W Carbon	AA
	RESISTORS	(C	ontinued)		R515	VRD-RM2HD102J		J 1k 1/	2W Carbon	AA
R224	V R D - M N 2 B E 4 7 2	וו	4.7k 1/8W Carbon	AA	R516	VRD-RM2HD102J	J	i 1k 1/	2W Carbon	AA
R225	VRD-MN2BE562	ן ו	5.6k 1/8W Carbon	AA	R517	VRD-MN2BE393J	J	I 39k 1/	8W Carbon	AA
R226	VRD-MN2BE472	l l	4.7k 1/8W Carbon	AA	R518	VRD-MN2BE273J	J	l 27k 1/	8W Carbon	ΔΔ
R227	VRD-MN2BE562	נו	5.6k 1/8W Carbon	AA	R519	VRD-RM2HD222J	J	2.2k 1/	2W Carbon	ΔΔ
R228	VRD-MN2BE333.	l l	33k 1/8W Carbon	AA	R520	VRD-RA2BE473J	J	47k 1/	8W Carbon	ΔΔ
R229	VRD-MN2BE102.	J	1k 1/8W Carbon	AA	R521	VRD-MN2BE101J	J	100 1/	8W Carbon
R230	VRD-MN2BE102.	IJ	1k 1/8W Carbon	AA	R522	VRD-MN2BE101J	J	100 1/	8W Carbon
R231	VRD-MN2BE102.	JJ	1k 1/8W Carbon	AA	R523	See Controls
R233	V R D - M N 2 B E 2 2 4.	l l	220k1/8W Carbon	AA	R524	VRD-MN2BE273J	J	27k 1/	8W Carbon	ΔΔ
R234	VRD-MN2BE224.	l l	220k1/8W Carbon	AA	R525	VRD-RM2HD1R2J	J	1.2 1/	2W Carbon	ΔΔ
R236	VRD-MN2BE103.	I I	10k 1/8W Carbon	AA	R526	VRD-MN2BE101J	J	100 1/	BW Carbon	ΔΔ
R238	VRD-MN2BE223.	IJ	22k 1/8W Carbon	AA	R527	See Controls
R241	VRD-RA2BE472.	I I	4.7k 1/8W Carbon	AA	R528	VRD-MN2BE473J	J	47k 1/	3W Carbon	ΔΔ
R301	VRD-RA2BE100.	IJ	10 1/8W Carbon	AA	R529	VRD-MN2BE103J	J	10k 1/	3W Carbon
R302	VRD-RA2BE100	IJ	10 1/8W Carbon	AA	R530	VRD-MN2BE103J	J	10k 1/	3W Carbon	ΔΔ
			(21D-CK1@)		R531	VRD-MN2BE683J	J	68k 1/	3W Carbon	ΔΔ
R304	VRD-RA2BE102J	IJ	1k 1/8W Carbon	AA	R532	VRD-MN2BE223J	J	22k 1/	3W Carbon
R307	VRD-MN2BE333J	IJ	33k 1/8W Carbon	AA	R533	VRD-MN2BE102J	J	1k 1/	3W Carbon	ΔΔ
R316	VRD-MN2BE333J	J	33k 1/8W Carbon	AA	R534	VRD-RA2BE272J	J	2.7k 1/	SW Carbon	ΔΔ
			(21D-CK1@)		R535	VRD-RM2HD470J	J	47 1/2	W Carbon	ΔΔ
R317	VRD-MN2BE333J	J	33k 1/8W Carbon	AA	R536	VRD-RA2BE333J	J	33k 1/8	SW Carbon	ΔΔ
			(21D-CK1@)		R537	VRD-RA2BE3331	J	33k 1/8	W Carbon
R320	VRD-MN2BE332J	J	3.3k 1/8W Carbon	AA	R538	VRD-MN2BE1031	ī	10k 1/8	W Carbon	ΔΔ
R321	VRD-MN2BE333J	J	33k 1/8W Carbon	AA	R539	VRD-MN2BF103J	1	10k 1/8	W Carbon
R323	VRD-RA2BE102J	J	1k 1/8W Carbon	AA	∕∩ R540	RR-XZ0029CF77	Ţ	33 1/2	W Euse Resistor
R327	VRN-KT3LB8R2J	J	8.2 3W Metal Film	n AC	R542	VRD-MN2BF2721	Ĩ	2.5 1/2 2.7k 1/2	W Carbon
			(14D-CM@, CV-2132(	CK1@)	R602	VRD-MN2BF1021	1	1k 1/8	W Carbon	ΔΛ
R327	VRN-KT3LB2R7J	J	2.7 3W Metal Film	n AF	R603	VRD-MN2BF4721	ļ	4.7k 1/5	W Carbon	ΔA
			(21D-CK1@)		R605	VRD-MN2BE1021	í	1k 1/5	W Carbon	~~
R335	VRD-MN2BE102J	J	1k 1/8W Carbon	ΔΔ	R606	VRD-MN2BE1011	1	100 1/9	W Carbon	~~
			(21D-CK1@)		R607	VRD-MN2BE5611	1	560 1/9	W Carbon
R336	VRD-MN2BE102J	J	1k 1/8W Carbon	ΔΔ	R608	VRD-MN2BE2211	í	220 1/9	W Carbon
R337	VRD-RA2BE471J	J	470 1/8W Carbon	ΔΔ	R609	VRD-MN2BE154	1	15011/9	W Carbon
R338	VRD-MN2BE332J	J	3.3k 1/8W Carbon	AA	R610		1	10 7\A
R339	VRD-MN2BE100J	J	10 1/8W Carbon	AA			1			AL
R340	VRD-MN2BE102J	J	1k 1/8W Carbon	ΔΔ	R610	VRW-KX44C120K	Т	12 10	N Coment
R341	VRD-MN2BE562J	J	5.6k 1/8W Carbon	ΔΔ			1	/21D_CK
R342	VRD-MN2BE103J	J	10k 1/8W Carbon	ΔΑ	∕≜ R611	RR-X70073CE77	ı	270 1/2	W Euro Posistor
R343	VRD-RA2BE101J	J	100 1/8W Carbon	AA	2.3		1			AD
R389	VRD-MN2BE682J	J	6.8k 1/8W Carbon	AA	∕∧ R611	RR-X70020CE77	1	29 1//
R402	VRD-MN2BE102J	J	1k 1/8W Carbon	AA			1
R403	VRD-MN2BE561J	J	560 1/8W Carbon	AA	R612	VRD-RM2HD3901	ı	20 1/2	W Carbon
R404	VRD-MN2BE561J	J	560 1/8W Carbon	AA			,
R503	VRD-MN2BE102J	j	1k 1/8W Carbon	ΔΔ	R613	VRD-RM2HD2221	ı	2 26 1/2	N/ Carbon
R504	VRD-RA2BE102J	J	1k 1/8W Carbon		R614		נ ו	2.2K 1/2
R505	VRD-MN2BE471J	Ĵ	470 1/8W Carbon		R615		ר נ	22K 1/2
R506	VRD-RA2BE152J	J	1.5k 1/8W Carbon	۵۵	R616		ן ו	5.0K 1/2		AA
R508	VRD-RA2BE392J	Ĵ	3.9k 1/8W Carbon	ΔΔ	NOTO	VAN-AVJADIKZJ	J			AB
R509	VRD-MN2BE103J	J	10k 1/8W Carbon	ΔΔ	R616	VRN-RV2DP1P01	ŗ	1.0 214
R510	VRD-RA2BE272J	J	2.7k 1/8W Carbon	ΔΔ		AVIA-VADDIK91	J
R512	VRD-RM2HD331J	j	330 1/2W Carbon	ΔΔ	R617	VRD-RADEE101	1	100 1/4	NOV, UV-2132CK	(@)
					1017	TAD TRAZECTVIJ	J	100 1/4		AA

Page 58


Ref. No.	Part No.	*	Description	Code	Ref. N
PWE	B-A DUNT	K86	00WEv3/v0/	V 1
	MOTHE	R U	NIT (Continue	d)	R66
	RESISTOR		ontinued)		R67
R618	VRD-RA2EE10	1J J	100 1/4W Carbon	ΔΔ
R619	VRD-RM2HD184	41 1	180k1/2W Carbon	AA	R67
R620	VRD-RA2EE22	311	22k 1/4W Carbon	AA
∕∧ R621	VRC-MA2HG562	2 K J	5.6k 1/2W Solid	AA	R67
R622	VRD-RM2HD10	2] ]	1k 1/2W Carbon	AA
R623	VRD-RA2BE18	3 J J	18k 1/8W Carbon	AA	R67
R624	VRD-MN2BE22	2J J	2.2k 1/8W Carbon	AA
			(14D-CM@)		R67
R624	VRD-MN2BE15	2 J J	1.5k 1/8W Carbon	AA
			(21D-CK1@, CV-213	32 C K1@)	R67
R625	VRD-RA2EE12	5 J J	1.2M 1/4W Carbon	AA
R626	VRD-MN2BE22	4 J J	220k1/8W Carbon	AA	R67
R627	VRD-MN2BE39	31 J	39k 1/8W Carbon	AA
			(14D-CM⑧)		R67
R627	VRD-MN2BE56	31 J	56k 1/8W Carbon	AA
			(21D-CK1@, CV-213	32CK1@)	R67
R628	V R D - M N 2 B E 5 6	4 J J	560k1/8W Carbon	AA
R629	VRD-RA2BE27	3 J J	27k 1/8W Carbon	AA	/ ∩ R70
R630	VRD-MN2BE22	1 J J	220 1/8W Carbon	AA	∕∆ R70
R631	VRD-MN2BE68	1 J J	680 1/8W Carbon	AA	∕∆ R70
R632	VRD-RM2HD392	2J J	3.9k 1/2W Carbon	AA
			(14D-CM@)		№
R632	VRD-RM2HD47	21 J	4.7k 1/2W Carbon	AA	.
			(21D-CK1@, CV-213	32CK1@)	/ ∖ R70
R634	VRD-RM2HD3R	31 1	3.3 1/2W Carbon	AA	0
R635	VRD-RM2HD560	21 1 21 1	56 1/2W Carbon	AA	/ 1 R70
K636	VRD-RAZBEZZ	21 1	22k 1/8W Carbon	AA	A 070
R037		3J J 1 I I	22K 1/8W Carbon
1030	VRD-RIVIZHDZZ	1 1		AA	A p70
P620		.	(14D-CIMIC)	^ ^
NUUU	VICE-INVIZITE 550		(21D-CK1@ CV-213	27CK1@\	Λ R70
R640	VRD-RA2BE22	3 \| 1	22k 1/8\// Carbon
R641	VRD-RA2BE22	311	22k 1/8W Carbon		A 870
R642	VRD-RA2BE68	311	68k 1/8W Carbon	ΔΔ
R643	VRD-MN2BE22	31 1	22k 1/8W Carbon		∕∩ R70
R646	VRD-RA2BE15	31 1	15k 1/8W Carbon	ΔΔ
			(21D-CK1@, CV-213	32CK1@)	∕∩ R70
R647	VRD-MN2BE39	3 J J	39k 1/8W Carbon	AA
			(21D-CK1@, CV-213	32CK1@)	∕∆ R70
R648	VRD-RA2BE1R	0 J J	1 1/8W Carbon	AA	∕ ∩ R71
R653	VRD-MN2BE68	4 J J	680k1/8W Carbon	AA	∕ R71
R654	V R S - S V 3 L B 4 7 2	2 J J	4.7k 3W Metal Ox	kide AC	🗥 R7 1
			(14D-CM ⁽ )		/∆ R71
R654	V R S - S V 3 L B 3 9 3	2 J J	3.9k 3W Metal Ox	kide AC	\land R71
			(21D-CK1@, CV-213	2CK1⊗)
R655	V R S - V V 3 D B 1 5	31 1	15k 2W Metal Ox	kide AA	\land R71
R663	VRD-RA2BE22	2 J J	2.2k 1/8W Carbon	AA
R664	V R D - R A 2 B E 6 8	1 J J	680 1/8W Carbon	AA	\land R71
R665	VRD-RA2EE10	4 J J	100k1/4W Carbon	AA
R668	VRD-MN2BE10	31 1	10k 1/8W Carbon	AA	\land R71

Ref. No.	Part No.	*	Description Co	bde
	RESISTORS (	Cr	entinued)
R669	VRD-MN2BE1021		10k 1/9W/ Carbon	• •
P670		,		• •
0670	VRD-RA201103		120 200 Matal Ouida
R072	VK3-KI3LBIZIJ	J
0670			(21D-CK1@), CV-2132CK10	99)
K6/3	VKD-KAZBEZZIJ	J	220 1/8W Carbon /	AA ~
			(21D-CK1@, CV-2132CK1@	9)
R674	VRD-RM2HD100J	J	10 1/2W Carbon /	AA
			(14D-CM⑧)
R674	VRN-VV3AB8R2J	J	8.2 1W Metal Film	AA
			(21D-CK1@, CV-2132CK1@	9)
R675	VRD-RM2HD271J	J	270 1/2W Carbon	٩A
			(14D-CM⑧)
R675	VRD-RM2HD122J	J	1.2k 1/2W Carbon	AA
			(21D-CK1@, CV-2132CK1@	9)
R676	VRD-RA2EE471J	J	470 1/4W Carbon	AA
			(14D-CM⑧)
R676	VRD-RA2EE102J	J	1k 1/4W Carbon	AA
			(21D-CK1@, CV-2132CK1@	Ð)
R677	VRD-RM2HD3R3J	j	3.3 1/2W Carbon	4A
			(21D-CK1@.CV-2132CK10	A)
∕∆ R702	VRW-KV3HC6R8K	ı	68 5W Cement	٥, ۵
A R703	VRS_KT3182731	ī	27k 3W Metal Oxide
		,	22 2W Metal Oxide	~ ^
/!\ \/04	VK3-VV3DB220J	J
A D704				A D
/!\ K/04		2		ңD
A 5704				• •
// k/04	AK2-AA3DB1001	J		44
^ =====			(CV-2132CK1@)
/ N R/05	VRD-RM2HD150J	J	15 1/2W Carbon /	Α Α

/ / ∖ R705	VRS-VV3AB100J	J	10 1W Metal Oxide	4A
_			(21D-CK1@)
/Δ̀ R705	VRD-RM2HD2R2J	J	2.2 1/2W Carbon /	٩A
			(CV-2132CK1@)
∕∆ R706	VRD-RA2BE124J	J	120k1/8W Carbon	AA
			(14D-CM@, CV-2132CK1@	))
∕ ∧ R706	V R D - R A 2 B E 4 7 4 J	J	470k1/8W Carbon	AA
			(21D-CK1@)
∕ ∆ R70 7	VRD-MN2BE390J	J	39 1/8W Carbon	AA
			(14D-CM@, CV-2132CK1@	))
⚠ R707	VRD-MN2BE270J	J	27 1/8W Carbon	4 A
			(21D-CK1⑧)
∕ ∧ R708	VRS-SV3LB124J	J	120k3W Metal Oxide	AC
/∧ R710	VRD-RA2BE392J	j	3.9k 1/8W Carbon	4 A
A R 711	See Controls	-
/\ R712	VRD-MN2BE681	ı	680 1/8W Carbon	ΔΔ
A R713	VRD-RA2EE225	ī	2 2M 1/4W Carbon	ΔΔ
∧ R714	VRD-RA2BE1841	í	180k1/8W Carbon	ΔΔ
د ے ان اح	THE MAZDE 104J			~
A 0714		ł	220k1/8W/ Carbon	• •
/!\ N/ 14	VND-NAZBEZZ4J	J		~~~
A D744	VDD DAODETOT		12061/81/ C	• •
/ 1 \ K/14	VKD-KAZBE124J	נ		чΑ
A			(LV-2132(K1(A))
∕I\ R715	VRD-MN2BE103J	J	TUK 1/8W Carbon	Aμ

Page 59

14D-CM^®, 21D-CK1^® CV-2132CK1^®

Ref. No	•	Part I	No.		*	Dese	ription	Code	Ref. No.
PW	В-А	DI M	UNTI OTHE	(8 R I	600 JNI		V3/V0/V ntinued	1	R1003	v
									R1004	V
^ _		RES	ISTOR	S (0	Conti	nued	)
/ N R716	VRD	-RA2	BE180	) ]	J 18	1/8W	/ Carbon	AA	R1004	v
/ K R717	VRD	)-RA2	BE10	IJ	J 10	0 1/8W	/ Carbon	AA
/ N R718	VRN	- V V 3	ABR22	J	J 0.2	2 1W	Metal Film	AA	R1005	۷
A 8719	VRC	-UA2	HG825	K	J 8.2	M 1/2V	V Solid	AA	R1006	۷
/ \| K/2U	VRC	-UA21	HG825	ĸ	J 8.2	M 1/2V	V Solid	AA	R1007	۷
/!\ R/21	VRD	- R IVI 2	HDIRO	J.	J 1	1/2W	Carbon	AA	R1008	۷
A 0722		.			(21	D-CK1	9 )		R1009	۷
/ 1 \ R/22	VKN	- 5 V 2	HCR2/	. ני	0.2	7 1/2W	/ Metal Film	AA	R1010	۷
A D722	VDC	cup			(21	D-CK1	9)		R1011	۷
		- 3 V 3		. L	J Z./	K 3W	Metal Oxid	e AD	R1012	۷
			BEIUZ	. L.	1 1K	1/8W	Carbon	AA	R1014	۷
A P725					82	1/8W	Carbon	AA	R1015	V
				. נ י	180	)K 1/2W	Carbon	AA	R1016	V
D001			HD184		180	IK 1/2W	Carbon	AA	R1017	V
ROU1			BESSZ	i i	3.3	k 1/8W	Carbon	AA	R1018	V
R003			BESEI		560	1/8W	Carbon	AA	R1019	VI
ROU4		-KAZ	BF201	11	560	1/8W	Carbon	AA	R1021	۷I
ROUS			BESGI		560	1/8W	Carbon	AA	R1022	VI
		-KAZ	BEIUI		100	1/8W	Carbon	AA
R807		-RAZ	BEIOI	נו	100	1/8W	Carbon	AA	R1022	V
R808		-KAZ	BE392		3.9	< 1/8W	Carbon	AA
R809		-KAZ	BE392		3.9	< 1/8W	Carbon	AA	R1023	VF
R810	VRD	-KAZ	BE392	1 1	3.9	< 1/8W	Carbon	AA
R011			BE201	ננ	560	1/8W	Carbon	AA	R1023	VF
D012		-RAZ	BEZZI		220	1/8W	Carbon	AA
D013		-RAZ	BEZZI		220	1/8W	Carbon	AA	R1024	VF
D015		MAND	BEZZI		220	1/8W	Carbon	AA	R1025	VF
R015			BE102		1k	1/8W	Carbon	AA	R1026	VF
D917			BEIUI		100	1/8W	Carbon	AA	R1027	VF
D010				נו	1K	1/8W	Carbon	AA	R1028	VR
D010			BE 101.		100	1/8W	Carbon	AA	R1029	VR
013			BEIUZ.		1K	1/8W	Carbon	AA	R1030	VR
R921			BE101.		100	1/8W	Carbon	AA	R1031	VR
R822			) E Z .		2.2K	1/87	Carbon	AA	R1032	VR
R823	VRD-		DE223.		22K	1/8/0		AA	R1033	VR
R825	VRD-	PAC	DE223. EE171		22K	1/877		AA	R1034	VR
R828		PADE	- E 4 / 4. D E 1 E A		4/0	(1/4VV)		AA	R1035	VR
1020	VICD-	NAZE	DE 104.		1501		Larbon	AA	R1036	VR
R828		R ^ 2 P	25692						R1037	VR
	VICD-	NA2 L			00K	1/844			R1038	VR
R829	VRD-	M N 2 F	8E127	ı	1204		, UV-2132CF		R1039	VR
R871	VRD-	MN2E	2 = 3 2 2 1	1	221	1/014/ 4		AA	R1040	VR
R901	VRD-I	MN 2 F	2 F 1 2 2 1	ן ו	1 2L	1/01/			R1041	VR
				,	()1D	.0VV (		АА (1@)	K1042	VR
R906	VRD-	M N 2 F	(F1))	ı	1 26	1/9/4/ /	, UV-2132UK Tarhar		K1043	VR
				,	1.2K	1/099 ( _CK1余			K1044	VR
R907	VRD-	RU2F	F1531	I	154	1/////	, UV-2 \| 32UK `arbon		R1045	VR
				,	135	-CK1@	-aruuri -CV-212204	AA 1@\	R1046	VR
R1001	VRD-F	кМ2н	D6801	I	رد ال 68	1/2///	, cv-2132CK `arbon		R1047	VR
R1002	VRD-F	RM2H	D6801	י נ ו	68	1/2\//	arbon	AA A A	K1055	VR
			,	,	00	1/2 99 (	ar DUII	АА	K1061	VR

Ref. No.	Part No.	7	Description	Code
	RESISTORS	(C	ontinued)
R1003	VRD-RA2EE102J	ر َ	1k 1/4W Carbon
R1004	VRD-RA2BE103J	J	10k 1/8W Carbon
			(14D-CM@)	,
R1004	VRD-RA2BE562J	J	5.6k 1/8W Carbon	۵۵
			(21D-CK1@, CV-2132	CK 1@)
R1005	VRD-MN2BE562J	J	5.6k 1/8W Carbon	ΔΔ
R1006	VRD-MN2BE473J	J	47k 1/8W Carbon
R1007	VRD-RA2BE562J	J	5.6k 1/8W Carbon
R1008	VRD-MN2BE103J	j	10k 1/8W Carbon
R1009	VRD-MN2BE472J	J	4.7k 1/8W Carbon
R1010	VRD-MN2BE101J	J	100 1/8W Carbon
R1011	VRD-MN2BE101J	J	100 1/8W Carbon
R1012	VRD-RA2BE333J	J	33k 1/8W Carbon	AA
R1014	VRD-RA2BE562J	J	5.6k 1/8W Carbon	AA
R1015	VRD-MN2BE103J	J	10k 1/8W Carbon	AA
R1016	VRD-RA2BE563J	J	56k 1/8W Carbon	AA
R1017	VRD-RA2BE273J	J	27k 1/8W Carbon	AA
R1018	VRD-MN2BE563J	J	56k 1/8W Carbon	AA
R1019	VRD-MN2BE102J	J	1k 1/8W Carbon	AA
R1021	VRD-RA2BE562J	J	5.6k 1/8W Carbon	AA
R1022	VRD-MN2BE562J	J	5.6k 1/8W Carbon	AA
			(14D-CM@, CV-2132C	K1@)
R1022	VRD-MN2BE272J	J	2.7k 1/8W Carbon	AA
			(21D-CK1@)
R1023	VRD-MN2BE562J	J	5.6k 1/8W Carbon	ΑΑ
			(14D-CM@, CV-2132C	K1@)
R1023	VRD-MN2BE272J	J	2.7k 1/8W Carbon	AA
			(21D-CK1@)
R1024	VRD-MN2BE103J	J	10k 1/8W Carbon	AA
R1025	VRD-RA2BE102J	J	1k 1/8W Carbon	АА
R1026	VRD-RA2BE101J	J	100 1/8W Carbon	AA
R1027	VRD-RA2BE101J	J	100 1/8W Carbon	АА
R1028	VRD-MN2BE562J	J	5.6k 1/8W Carbon	AA
R1029	VRD-MN2BE562J	J	5.6k 1/8W Carbon	ΑΑ
R1030	VRD-MN2BE562J	J	5.6k 1/8W Carbon	AA
R1031	VRD-MN2BE101J	J	100 1/8W Carbon	AA
R1032	VRD-MN2BE101J	J	100 1/8W Carbon	ΑΑ
R1033	VRD-MN2BE101J	J	100 1/8W Carbon	ΑΑ
R1034	VRD-MN2BE562J	J	5.6k 1/8W Carbon	ΑΑ
R1035	VRD-MN2BE152J	J	1.5k 1/8W Carbon	AA
R1036	V R D - R A 2 B E 3 9 2 J	J	3.9k 1/8W Carbon	AA
R1037	V R D - R A 2 B E 3 9 2 J	J	3.9k 1/8W Carbon	AA
R1038	V R D - R A 2 B E 3 9 2 J	J	3.9k 1/8W Carbon	AA
R1039	VRD-MN2BE102J	J	1k 1/8W Carbon	AA
R1040	VRD-MN2BE102J	J	1k 1/8W Carbon	AA
R1041	VRD-MN2BE101J	J	100 1/8W Carbon	AA
R1042	VRD-MN2BE101J	J	100 1/8W Carbon	AA
R1043	VRD-RA2EE821J .	ן	820 1/4W Carbon	AA
R1044	VRD-RA2BE271J .	J	270 1/8W Carbon	AA
R1045	VRD-MN2BE223J .	J	22k 1/8W Carbon	AA
R1046	VRD-RA2EE181J	J	180 1/4W Carbon	AA
R1047	VRD-RA2EE271J	J	270 1/4W Carbon	AA
R1055	VRD-MN2BE101J	J	100 1/8W Carbon	AA
R1061	VRD-MN2BE562J	J	5.6k 1/8W Carbon	AA

Page 60

	*	Description	Code	Ref. No.	Part No.	*	Description	Code
8	6	00WEV3/V0/V	1		MISCELLANI	EO	US PARTS
₹	Ū	NIT (Continued	)	CN401	QCNW-1290PEZZ	J	Connecting Wire	AK
-				CN601	QCNW-0430PEZZ	J	Connecting Wire	AC
6 (	Сс	ntinued)		∕ ∆ F300	Q F S - J 1 2 2 1 T A Z Z	J	IC Protector	AE
J	J	56k 1/8W Carbon	AA				(14D-CM⑧)
J	J	56k 1/8W Carbon	AA		QFS-J2521GEZZ	J	IC Protector	AE
l	J	56k 1/8W Carbon	AA				(21D-CK1@)
J	J	56k 1/8W Carbon	AA	// F300	QFS-J1021CEZZ	J	IC Protector	AE
J	J	56k 1/8W Carbon	AA				(CV-2132CK1@)
J	J	1k 1/8W Carbon	AA	∕ ∧ F701	QFS-C3224CEZZ	J	Fuse, T3.15A	AD
l	J	27k 1/8W Carbon	AA	FB305	RBLN-0037CEZZ	J	Ferrite Bead	AB
J	J	56k 1/8W Carbon	AA	FB601	RBLN-0037CEZZ	٦	Ferrite Bead	AB
J	J	56k 1/8W Carbon	AA	A FB603	RBLN-0036CEZZ	٦	Ferrite Bead	AB
J	J	27k 1/8W Carbon	AA	🗥 FB701	RBLN-0037CEZZ	J	Ferrite Bead	AB
J	J	56k 1/8W Carbon	AA				(14D-CM @ )
		(21D-CK1@)		🗥 FB701	RBLN-0010CEZZ	J	Ferrite Bead	AC
J	J	56k 1/8W Carbon	AA				(21D-CK1@, CV-2132C	K1@)
l	J	5.6k 1/8W Carbon	AA	\land FB702	RBLN-0037CEZZ	٦	Ferrite Bead	AB
٦	J	5.6k 1/8W Carbon	AA	FB731	RBLN-0010CEZZ	J	Ferrite Bead	AC
J	J	5.6k 1/8W Carbon	AA	\land FH701	QFSHD1009CEZZ	٦	Fuse Holder, for F701	AA
l	J	5.6k 1/8W Carbon	AA		QFSHD1010CEZZ	J	Fuse Holder, for F701	AA
		(14D-CM ^® , CV-2132C	:K1⊗)	⚠ J401	QJAKF0011CEZZ	٦	Jack, AV Input	AG
J	J	2.7k 1/8W Carbon	AA	P201	QPLGN0241CE04	٦	Plug 2-pin, (TP201)	AA
		(21D-CK1®)		P301	QPLGN0241CEZZ	J	Plug 2-pin, (S)	AA
J	J	10k 1/8W Carbon	AA				(14D-CM@, CV-2132Ck	<1⊗)
J	٦	10k 1/8W Carbon	AA	P308	QPLGN0441CEZZ	J	Plug 4-pin, (S2)	AB
J	٦	100 1/8W Carbon	AA				(21D-CK1⑧)
J	٦	10k 1/8W Carbon	AA	P401	QPLGN0461CEZZ	J	Plug 4-pin, (VA)	AB
J	J	15k 1/8W Carbon	AA	P603	QPLGN0441CEZZ	٦	Plug 4-pin, (H)	AB
J	J	8.2k 1/8W Carbon	AA				(14D-CM⑧)
J	J	15k 1/8W Carbon	AA	P603	QPLGN0461CEZZ	J	Plug 4-pin, (H)	AB
J	٦	12k 1/8W Carbon	AA				(21D-CK1@, CV-2132C	K1@)
J	J	15k 1/4W Carbon	AA	P604	QPLGN0505CEZZ	J	Plug 5-pin, (F)	AB
l	J	33k 1/8W Carbon	AA	P605	QPLGN0207CEZZ	J	Plug 2-pin, H-Size	AA
J	ſ	33k 1/8W Carbon	AA				(21D-CK1@, CV-2132C	K1@)
J	٦	680k1/8W Carbon	AA	P606	QPLGN0160CEZZ	J	Plug 1-pin, (L3)	AB
J	٦	56k 1/8W Carbon	AA				(21D-CK1@, CV-2132C	К1⊗)
				\land P711	QPLGN0207CEZZ	J	Plug 2-pin, (G)	AA
				\land P712	QPLGN0304CEZZ	J	Plug 3-pin, (A)	AB
				P801	QPLGN0561CEZZ	J	Plug 5-pin, (K)	AB
T	СН	ES		P1001	QPLGN0441CE04	J	Plug 4-pin, (BC)	AA
Ζ	J	Vertical Center Adj.	AC	RMC1001	RRMCU0210CEZZ	J	Remote Control Receiv	er AK
Ζ	J	Power	AL				(14D-CM⑧)
Ζ	٦	Channel Up	AB	RMC1001	RRMCU0215CEZZ	٦	Remote Control Receiv	er AN
Ζ	L	Channel Down	AB				(21D-CK1@, CV-2132C	K1@)
Ζ	J	Volume Up	AB		LHLDP1017PF00	R	I FD Holder	AB

Ref. No.

PWB-A DUNTK86 MOTHER U ____

Part No.


R1062	VRD-MN2BE563J	J	56k 1/8W Carbon	ļ
R1064	VRD-MN2BE563J	J	56k 1/8W Carbon	ļ
R1066	VRD-RA2BE563J	J	56k 1/8W Carbon	ļ
R1067	VRD-RA2BE563J	J	56k 1/8W Carbon	ļ
R1069	VRD-MN2BE563J	J	56k 1/8W Carbon	ļ
R1071	VRD-MN2BE102J	J	1k 1/8W Carbon	ł
R1072	VRD-RA2BE273J	J	27k 1/8W Carbon	1
R1073	V R D - M N 2 B E 5 6 3 J	J	56k 1/8W Carbon	1
R1074	VRD-MN2BE563J	J	56k 1/8W Carbon	,
R1075	V R D - M N 2 B E 2 7 3 J	J	27k 1/8W Carbon	,
R1076	VRD-RA2BE563J	J	56k 1/8W Carbon	1
			(21D-CK1@)
R1077	VRD-RA2BE563J	J	56k 1/8W Carbon	ļ
R1078	VRD-MN2BE562J	J	5.6k 1/8W Carbon	ļ
R1079	VRD-MN2BE562J	J	5.6k 1/8W Carbon	1
R1080	VRD-MN2BE562J	J	5.6k 1/8W Carbon	,
R1081	VRD-MN2BE562J	J	5.6k 1/8W Carbon	,
			(14D-CM@, CV-2132CK1	e
R1081	VRD-MN2BE272J	J	2.7k 1/8W Carbon	,
			(21D-CK1®)
R1082	VRD-MN2BE103J	J	10k 1/8W Carbon	1
R1083	VRD-MN2BE103J	٦	10k 1/8W Carbon	1
R1084	VRD-RA2BE101J	J	100 1/8W Carbon	ļ
R1086	VRD-RA2BE103J	J	10k 1/8W Carbon	1
R1087	VRD-MN2BE153J	J	15k 1/8W Carbon	ļ
R1088	VRD-RA2BE822J	J	8.2k 1/8W Carbon	ŀ
R1089	VRD-RA2BE153J	J	15k 1/8W Carbon	ł
R1090	VRD-RA2BE123J	J	12k 1/8W Carbon	ļ
R1091	VRD-RA2EE153J	J	15k 1/4W Carbon	ļ
R1092	VRD-RA2BE333J	J	33k 1/8W Carbon	Å
R1093	VRD-MN2BE333J	ſ	33k 1/8W Carbon	ł
R1094	VRD-MN2BE684J	٦	680k1/8W Carbon	Å
R1096	VRD-MN2BE563J	L	56k 1/8W Carbon	ŀ

SWITCH

S501	QSW-B0015CEZZ J	Vertical Center Adj.	AC
∕∆ $701	QSW-P0566CEZZ J	Power	AL
S1001	QSW-K0079GEZZ J	Channel Up	AB
$1002	Q$W-K0079GEZZ J	Channel Down	AB
$1003	QSW-K0079GEZZ J	Volume Up	AB
$1004	QSW-K0079GEZZ J	Volume Down	AB
S1005	QSW-K0079GEZZ J	Pre-Set	AB
$1006	QSW-K0079GEZZ J	Mode	AB
S1007	QSW-K0079GEZZ J	Skip	AB
$1008	QSW-B0015CEZZ J	Set-Up Mode	AC

----- End of PWB-A -----

Page 61

												L
Ref. No.	Part No.		* D	escription	Code	Ref. No.		Part No.	*	r	Desc	ription	Cod
PW	B-C DUNTK	( 8 .	598W ET UNI	EVO T		PW	B-C		84	46	WE	V1
	(140	)-C	.M⊗)	•			(21D	-CK1@ an	d C	- T C 2V-2	2132	CK1⊗)
	TRAN	SIS	TORS					TRAN	SIS.	TOR	<
Q851	V$2$C22290/1	Ξ.	2SC222	9(O)	AD	Q851	V S 2 S	SC3417//1	= )	250	3417		٨٢
Q852	VS2SC22290/11	Ξ.	2SC222	9(0)	AD	0852	V S 2 S	SC3417//1		250	3417
Q853	VS2SC22290/11	Ξ.	2$C222	9(O)	AD	Q853	VS25	SC3417//1	ĒJ	250	3417
Q854	VS2SA1015Y/11		2SA101	5(Y)	AC	Q854	V S 2 S	A 1 0 1 5 Y / 1 E	J	2SA	.1015(`	Y)	AC
	DI	00	DE					וח	חח	F
D851	VHD155119//1	ĘJ	1SS119		AA	D851	VHD	1 S S 1 1 9 // 1 E		155	119		АА
	c	ol	L					C	011
L851	VP-CF681K0000	) )	680µH		AB	L851	VP-C	F681K0000	J	680	μH		AB
	САРА	CII	FORS					CAPA	СІТ	ORS
C851	VCKYD41HB391k	Ĵ	390p 5	0V Ceramio	AA :	C851	νςκγ	D41HB391K		390	n 50V	Ceramic	۵۵
C852	VCKYD41HB331k	J	330p 5	0V Ceramio	AA	C852	VCKY	D41HB391K		390	p 50V	Ceramic	ΔΔ
C853	VCKYD41HB391k	Ĵ	390p 5	0V Ceramio	AA	C853	νςκγ	D41HB391K	J	390	p 50V	Ceramic
C854	RC-KZ015JCEZ	ΖJ	0.01 1	.5kV Cerami	C AB	C854	VCEA	GA1CW336M	J	33	16V	Electrolyti	c AB
C855	VCEAGA2DW106N	IJ	10 2	00V Electrol	rtic AC	C855	VCEAG	GA1CW106M	J	10	16V	Electrolyti	c AA
C859	VCKYD41CY103N	IJ	0.01 1	6V Ceramic	AA	C856	VCEA	GA2DW106M	J	10	200	V Electrolyti	c AC
C861	VCEAGA1CW336M	J	33 1	6V Electrol	rtic AB	C857	RC-K	Z0150CEZZ	J	100	Jp3kV	Ceramic	AB
C865	VCKYPA2HB102k	J	1000p5	00V Ceramic	AA	C858	νску	PA2HB102K	J	100	)p500	V Ceramic	AA
C867	VCEAGA1CW107M	J	100 1	6V Electrol	rtic AB	C859	VCKY	D41CY103N	٦	0.01	16V	Ceramic	AA
C870	VCEAGA1CW106M	J	10 10	6V Electrol	rtic AA	C861	VCEAG	GA1CW107M	J	100	16V	Electrolyti	: AB
	RESI	бто	ORS					RESIS	то	RS
R851	VRD-RA2BE561	J	560 1/8	W Carbon	AA	R851	V R D -	R A 2 B E 5 6 0 J	J	56	1/8W	Carbon	AA
R852	VRD-RA2BE681J	J	680 1/8	W Carbon	AA	R852	VRD-	R A 2 B E 5 6 0 J	J	56	1/8W	Carbon	AA
R855	VRD-RM2HD272J	J	2.7k 1/2	W Carbon	AA	R853	₩RD-I	RA2BE560J	٦	56	1/8W	Carbon	AA
RODO	VRD-RAZBES61J	1	560 1/8	W Carbon	AA	R854	V R $ - \	/ V 3 D B 1 2 3 J	٦	12k	2W	Metal Oxide	e AA
R860	VRS VV2DB1221	1	580 1/8	W Carbon		R855	VRS-\	/V3DB123J	٦	12k	2W	Metal Oxide	9 AA
R861		L L	12K 2VV		de AA	R856	VRS-V	/V3DB123J	J	12k	2W	Metal Oxide	9 AA
R862	VRD-RA2BE561	, I	2.7 K 1/2			K857	VRD-H	M2HD272J	1	2.7k	1/2W	Carbon	AA
R866	VRS-VV3DB1231	1	12k 2W	W Carbon Metal Ovi		RODO		(M2HD272)	1	2.7k	1/2W	Carbon	AA
R867	VRD-RM2HD272J	j	2 7k 1/2			R039 8860			1	2.7k	1/2W	Carbon	AA
R868	VRS-VV3DB123J	Ĵ	12k 2W	Metal Oxi	de AA	R861		A286081J	J	680	1/8W	Carbon	AA
R874	VRD-RA2BE681J	J	680 1/8	W Carbon		R862		AZBEGOIJ	נ	680	1/877	Carbon
R875	VRD-RA2BE560J	j	56 1/8	W Carbon	ΔΔ	R863	VRD-F	A2BE001J	,	470	1/8 44	Carbon
R876	VRD-RA2BE560J	J	56 1/8	W Carbon	AA	R864	VRD-F	RA2BF471	ر ا	470	1/8\//	Carbon
R877	VRD-RA2BE560J	J	56 1/8	N Carbon	AA	R865	VRD-F	RA2BE4711	, I	470	1/8\//	Carbon	AA ^ ^
R878	V R D - R A 2 B E 4 7 1 J	J	470 1/8	N Carbon	AA	R866	VRD-F	RA2BE2721	ļ	2.7k	1/8W	Carbon	AA A A
R879	VRD-RA2BE272J	J	2.7k 1/8	N Carbon	AA	R867	VRD-F	RA2BE1521	J	1.5k	1/8W	Carbon	ΑΑ Δ Δ
R880	V R D - R A 2 B E 1 0 1 J	J	100 1/8	V Carbon	AA	R868	VRD-F	RA2BE471J	J	470	1/8W	Carbon	ΔΔ
R881	V R D - R A 2 B E 1 5 2 J	J	1.5k 1/8\	V Carbon	AA	R869	VRD-F	A2BE101J	j	100	1/8W (	Carbon

MISCELLANEOUS PARTS

P851	QPLGN0341CEZZ J	Plug 3-pin, (H)	AA
P852	QPLGN0541CEZZ J	Plug 5-pin, (K)	AB
\land $C851	QSOCV0829CEZZ J	CRT Socket	AK

MISCELLANEOUS PARTS

R869 VRD-RA2BE101J J 100 1/8W Carbon

P851	QPLGN0541CEZZ J	Plug 5-pin, (K)	AB
P852	QPLGN0441CEZZ J	Plug 4-pin, (H)	AB
⚠ SC85 1	QSOCV0913CEZZ J	CRT Socket	AK

----- End of PWB-B (14D-CM^®) ------------------------------------

Page 62

Ref. No.		Part No.		*		Descri	ption	Code	R
PWB-D DUNTK8599WEV3/V0 AV UNIT
		INTEG	GRATE	D		JITS
IC2301	vнi	M5231	7 S P - 1	_ ·	Sound	d Conv	verter	AK
102302	VHI	TA734	7 P/- 1	ī	Audio	o Swite	ch	AG
102302	У НТ		8C/-1	ī	Oner	ation	Δmn
IC2401	VHi	L A 7 9 5	6//-1	J	Video	Swite	ch	AG
		г	RANSI	ST	ORS
Q2401	V S 2	S C 9 4 5	A P / - 1	J	2SC94	45A(P)	)	AB
Q2402	V S 2	S C 9 4 5 /	A P / - 1	J	2SC94	45A(P)	)	AB
Q2403	V S 2	S C 9 4 5 .	A P / - 1	J	25C94	45A(P)	)	AB
			DIO	DE	S
D2401	RH-	E X 0 0 4 1	ITAZZ	J	Zene	r Diod	e,9.1V	AC
D2402	RH-	E X 0 0 4 1	ITAZZ	J	Zene	r Diod	e, 9.1V	AC
			со	ILS	5
CF2301	RFil	. C 0 2 5 8	CEZZ	J	Cerar	nic Fil	ter, 6.5 MHz	AD
CF2302	RFil	C 0 2 7 0	CEZZ	J	Cerar	nic Fil	ter, 5.5 MHz	AD
CF2303	RFil	C 0 2 6 8	CEZZ	J	Cerar	nic Fil	ter, 6.0 MHz	AD
CF2305	RFil	A0072	2 C E Z Z	J	1 MH	z Osci	llator	AE
CF2401	RFil	.C0150	CEZZ	J	5.5/6	.0 MH:	z Trap Coil	AF
CF2402	RFil	. C 0 0 2 4	CEZZ	J	6.5 M	Hz Tra	ap Coil	AE
CF2304	RFil	C 0 2 2 8	CEZZ	٦	Cerar (14D-	nic Fil ^. CMA	ter, 5.74 MH: )	z AF
L2401	VP-I	OF100k	0000	J	Coil,	10µH		AB
L2402	VP-I	DF150 k	0000	j	Coil.	15 µ H		AB
L2403	V P - I	OF150k	(0000	J	Coil,	15µH		AB
		· ·	САРАС	л	ORS
C2301	νск	YPA1H	F103Z	J	0.01	50V	Ceramic	AA
C2302	νск	YPA1H	F103Z	J	0.01	50V	Ceramic	AA
C2303	νск	YPA1H	F103Z	J	0.01	50V	Ceramic	АА
C2304	νск	YPA1H	F103Z	J	0.01	50V	Ceramic	АА
C2305	VCE/	AGA1CW	/107M	J	100	16V	Electrolytic	AB
C2306	νск	YPA1H	F103Z	Ĵ	0.01	50V	Ceramic	AA
C2307	vcc	СРАТН	H180J	Ĵ	18p	50V	Ceramic	AA
C2308	νск	YPA1H	F103Z	J	0.01	50V	Ceramic	АА
C2309	νск	YPA1H	F103Z	J	0.01	50V	Ceramic	AA
C2310	уск	YPA1H	F1037	ī	0.01	50V	Ceramic
C2311	VCFA	AGA1CW	/106M	Ţ	10	16V	Electrolytic		Â
C2312	VCF		V334M	Ţ	0.33	50V	Electrolytic	ΔΔ
C2314	VCF4		/476M	í	۵.55 47	16V	Electrolytic		د یک
(2315	VCE		/106M	1	10	16V	Electrolytic
(2217	VCF		/106M	1	10	161	Electrolytic	ΔΔ
(2225	VCE		/10714	ר ו	100	161/	Electrolytic	~~ ^ P
(2/01				ן ו	825	5017	Coromic
C2401	VCE		//7614	ר ו	02р л 7	121		AA A D
C2402	VCV		E 1 0 2 7	1	4/	TOV	Cororaio	AB AB
C2403	VCK			, L	0.01	507	Ceramic	AA
C2404	VCC	CPA1H	H820J	ر ,	8∠p	507	Ceramic	AA
C2405	VCE4	AGA1CW	/107M	1	100	16V	Electrolytic	AB
C2406	VCEA	AGA1CW	106M	J	10	16V	Electrolytic	AA
C2409	VCE4	AGA1CW	/106M	J	10	16V	Electrolytic	AA
C2410	νск	YPA1H	F103Z	J	0.01	50V	Ceramic	AA

Ref. No.	Part No.	*		Descr	iption	Code
	CAPACITORS	(C	onti	nued	)
C2411	VCKYD41CY103N	Ĵ	0.01	16V	Ceramic	АА
C2413	VCEAGA1CW477M	J	470	16V	Electrolytic	AC
C2414	VCKYPA1HF103Z	J	0.01	50V	Ceramic	AA
C2415	VCKYPA1HF103Z	J	0.01	50V	Ceramic	ΑΑ
C2416	VCEAGA1HW225M	J	2.2	50V	ELectrolvic	AB
C2419	VCEAGA1CW107M	J	100	16V	Electrolytic	AB
	RESIS	то	RS
R2301	VRD-RA28F4711		470	1/8\/	Carbon	۸۵
R2302	VRD-RA2BE681	ī	680	1/8W	Carbon
R2303	VRD-RA28E561	ī	560	1/8W/	Carbon	~~
R2304	VRD_RA288211	í	820	1/8\//	Carbon	~~
82305	VRD-RA2864711	Ì	470	1/8\//	Carbon	~~
R2305	VRD-RA2BE681	1	680	1/8W/	Carbon	~~
R2300	VRD-RA2BE1021	1	11	1/8\//	Carbon	~~
R2310	VRD-RA2BE6811	ī	680	1/8W	Carbon	~~
R2310	VRD-RA2BE1031	1	104	1/8/	Carbon	~~
R2312	VRD-RA2BE1821	1	1.84	1/8/	Carbon	~~
R2316	VRD-RA2BE1531	1	1.0k	1/8/	Carbon	~~
R2317	VRD-RA2BE1231	1	124	1/8/	Carbon	~~
R2370	VRD-RA2BE1021	1	16	1/8\/	Carbon	~~
R2320		1	470	1/8\/	Carbon	~~
D2240	VRD-RA2BE471J	1	1 2	1/9\/	Carbon	~~
D2/01		1	1.2 K	1/2\/	Carbon	~~
R2401	VRD-RA2BEF811	1	680	1/8\/	Carbon	~~
R2402		1	200	1////	Carbon	~~
R2403	VRD-RA2RE3311	1	330	1/8\/	Carbon	~~
R2404	VRD-RA2BE331	1	2.24	1/8\/	Carbon
R2405	VRD-RA2BE4721	1	4.7k	1/8W	Carbon	ΔΔ
R2400	VRD-RA2BE1221	Ì	1.2k	1/8W	Carbon
R2408	VRD-RA2BE1221	í	1.2k	1/8W	Carbon
R2409	VRD-RA2BE1011	Ì	100	1/8W	Carbon
R2410	VRD-RA2BE1021	ī	1k	1/8W	Carbon
R2411	VRD-RA2BE331	Ţ	330	1/8W	Carbon	AA
R2413	VRD-RA2BE5631	Ţ	56k	1/8W	Carbon	AA
R2414	VRD-RA2BE3331	-	33k	1/8W	Carbon	ΔΔ
R2417	VRD-RA2BF1511	ī	150	1/8W	Carbon	ΔΔ
R2418	VRD-RA2BE5641	ī	560k	1/8W	Carbon
R2419	VRD-RA2BE1001	ī	10	1/8W	Carbon	AA
R2420	VRD-RA2BE1011	-	100	1/8W	Carbon	ΔΑ
R2421	VRD-RA2BE4711	Ţ	470	1/8W	Carbon	AA
î\ R2426	RR-X70026CF77	Í	10	1/4W	Fuse Resistor	AB
∧ R2427	RR-X70026CF77	J	10	1/4W	Fuse Resistor
R2431	VRD-RA2FF7501	Ì	75	1/4W	Carbon	ΔΔ
R2433	VRD-RA2RF1011	J	100	1/8W	Carbon	ΔΔ
R2435	VRD-RA2BE564	J	560k	1/8W	Carbon	AA
R2445	VRD-RA2BE182J	j	1.8k	1/8W	Carbon	AA

MISCELLANEOUS PARTS

P2401	QPLGZ0807GEZZ	٦	Plug 8-pin, (YA)	AC
P2402	QPLGZ0607GEZZ	٦	Plug 6-pin, (YB)	AC
P2403	QPLGN0461CEZZ	J	Plug 4-pin, (VA)	AB

— End of PWB-D —

Page 63

14D-CM&, 21D-CK1& CV-2132CK1&

Ref. No.	Part No.	*	Description	Code	Ref. No.	Part No.	*	Description	Code
	MISCELLA	NEOL	JS PARTS		2	SUPPLIED	ACCE	SSORIES
CN301 (	QCNW-1240PE	ZZRC	onnecting Wire, spe	eaker AE		ACC	ESSORI	ES

	•		(14D-CM@)	AL
CN851	QCNW-1341PEZ	Z R	Connecting Wire, (H)	AF
			(14D-CM@)
CN852	QCNW-1595PEZZ	Z R	Connecting Wire, (K)	AG
			(14D-CM@)
	QCNW-1585PEZZ	C R	Connecting Wire	AH
			(21D-CK1@)
	QCNW-1496PEZZ	C R	Connecting Wire	AE
			(CV-2132CK1@)
	QCNW-1626PEZZ	R	Connecting Wire	АН
			(21D-CK1@,CV-2132CK1	( )
SP1	VSP0010P-Q0WA	J	Speaker	AN
			(14D-CM⑧)
SP1	VSP9050PB06WA	R	Speaker	AR
			(21D-CK1@,CV-2132CK1	( )
	LHLDW0001PEK0	R	AC Cord Holder	AD
			(14D-CM⑧)
	LHLDK0001PEZZ	R	AC Cord Holder	AC
			(21D-CK1@,CV-2132CK1	( )
ACC701	QACCZ2001PESA	R	AC Cord	AN

----- End of MISCELLANEOUS PARTS -----

PACKING PARTS (NOT REPLACEMENT ITEM)

14D-CM®

SPAKC5937PEZZ -	Packing Case —
SPAKP0055PEZZ -	Polystyrene Mat -
SPAKX0390PEZZ -	Packing Material —
TLABK0002PEZZ -	Number Card —

21D-CK1®

SPAKC5932PEZZ -	Packing Case
SPAKP0055PEZZ -	Polystyrene Mat	_
SPAKX0393PEZZ -	Packing Material
TLABK0002PEZZ -	Number Card -

CV-2132CK1@

SPAKC5930PEZZ -	Packing Case —
SPAKP0055PEZZ -	Polystyrene Mat
SPAKX0393PEZZ -	Packing Material
TLABK0002PEZZ -	Number Card —

—— End of PACKING PARTS ——

ACCESSORIES
QPLGJ0113CEZZ J	Antenna Plug, 75—300Ω AG (14D-CM∕⊗)
RRMCG1077PESA R	Infrared Remote AW Control Unit
TINS-5497PEZZ R	Operation Manual AF (14D-CM@)
TiNS-5485PEZZ R	Operation Manual AF (21D-CK1@)
TiNS-5486PEZZ R	Operation Manual AF (CV-2132CK1@)

ACCESSORIES (NOT REPLACEMENT ITEM)

TMAPC3932PEZZ	-	Service Map
		(14D-CM@)
TMAPC3927PEZZ	-	Service Map
		(21D-CK1@)
TMAPC3928PEZZ	-	Service Map	—
		(CV-2132CK1@)
UBATU0023GEZZ	-	Dry Batteries,	—
		Size AAA (2 pcs.)

----- End of SUPPLIED ACCESSORIES -----

Page 64

Ref. No.	Part No.	*	Description	Code

CABINET PARTS

MODEL 14D-CM®

1	CCABA2204WEV2	R	Cabinet Ass'y, Front	вс
1-1	Not available		Cabinet, Front	—
1-2	GMADT0145PESA	R	Window Cover	AN
1-3	HBDGB3110CESA	J	Badge, "SHARP"	AG
1-4	JBTN-0152PESA	R	Button, Power	AD
1-5	JBTN-0116PESA	R	Buttons,	AG
			Up/Down Controls
1-6	MSPRC0008PEFW	R	Spring, Power Button	AB

2	CCABB2167WEV0	R	Cabinet Ass'y, Rear	АХ
3	QANTR0018PEZZ	R	Rod Antenna, Dipole	AQ

MODEL 21D-CK1®

1	CCABA2257WEV0	R	Cabinet Ass'y, Front	BL
1-1	Not available	·	Cabinet, Front
1-2	GMADT0139PESA	R	Window Cover	AF
1-3	HBDGB0015PESA	R	Badge, "SHARP"	AE
1-4	Not available	-	Punching Plate, Right
1-5	Not available		Punching Plate, Left	-
1-6	JBTN-0144PESA	R	Button, Power	AE
1-7	JBTN-0118PESA	R	Buttons,	AG
			Up/Down Controls
1-8	MSPRC0068CEFW	J	Spring, Power Button	ÂĂ
2	CCARB2174WEV0	R	Cabinet Ass'y Rear	ВĎ

MODEL CV-2132CK1®

1	CCABA2258WEV0	R	Cabinet Ass'y, Front	BL
1-1	Not available	-	Cabinet, Front	—
1-2	GMADT0139PESA	R	Window Cover	AF
1-3	HBDGB0015PESB	R	Badge, "SHARP"	AE
1-4	Not available	-	Punching Plate, Right
1-5	Not available	-	Punching Plate, Left
1-6	JBTN-0144PESA	R	Button, Power	AE
1-7	JBTN-0118PESA	R	Buttons,	AG
			Up/Down Controls
1-8	MSPRC0068CEFW	J	Spring, Power Button	AA

2	CCABB2174WEV0	R	Cabinet Ass'y, Rear	8D

------ End of CABINET PARTS ------

Page 65

Memo

Page 66

SHARP

T9815-S Printed in Japan 在日本印刷 @//3 MW.KD

14D-CM@, 21D-CK1@ CV-2132CK1@

SHARP 14DCM, 14DSC, 21DCK1, CV2132CK1, TV21D-CK1A Service manual & schematics

SERVICE MANUAL 维修手册

14D-CM

21D-CK1⊗

WARNING

FEATURE

主要功能

SPECIFICATIONS

14D-CM∞

头肌 林等

21D-CK1 and CV-2132CK1 Self Conversion System

型号21D-CK10与CV-2132CK10

上述规格变更之场合,恕不另行通知

IMPORTANT SERVICE NOTES

SERVICING OF HIGH VOLTAGE SYSTEM AND PICTURE TUBE

X-RAY

BEFORE RETURNING THE RECEIVER

保养维修重要注意事项

关于X射线

维修后归还之前

ADJUSTMENT PRECAUTIONS

1) Calling the service mode by the microprocessor

2) Factory presettings (EEPROM)

SERVICE MODE

服务状态

(1)设定状态的切场

(2) SERVICE mode

b) CUT-OFF ADJUST mode

(2)服务状态的动作

a)设定服务状态后。触按音量增大键或音量减小键切换如下:

b)截止调整状态

在非水平中心的截止调整状态时。必须设对比度和亮度控制于下表所示的规定位置。

(3) NVM mode

(4) EEPROM initialization

Factory preset data

SERVICE MODE reference data

DELAY TIME reference data

E7

(3)NVM设定状态

b)触按音量增大键或音量减小键,地址代码即发生如下变动:设定所需地址代码后, 触按[∧]/ ☑ (DAC上移/下移)键进行地址数据的上移和下移。_____

(4) B2PROM初始值的设定 用切换开关3输入下记数据于B2PROM装置之中。

●出厂前的初始设定数据

●服务状态的标准数据

●延迟时间的标准数据

(5) SERVICE FINE-TUNING mode

(5)服务微调方式

SFRVICE ADJUSTMENT

1. TUNER IFT (Preset)

Note:

2. COIL ADJUSTMENT: T202 (VCO)

Note 1

■ 115V LINE ADJUSTMENT

■ 115V线路的调试

6.接数字式电压计于TP701。

PURITY ADJUSTMENT

PREPARATIONS

CONVERGENCE ADJUSTMENT

CONVERGENCE ADJUSTMENT (To be done after the purity adjustment)

1. Receive the "CROSSHATCH PATTERN" signal.

STATIC CONVERGENCE

DYNAMIC CONVERGENCE

■面面聚焦度的调试

画面聚集度的调试(此项调试必须于色彩烛度磁铁调试完毕后进行)。

1.接收棋盘格测试图案信号。 2. 设亮度控制干标准位置(5/10)。 设计公正的 计信证 (()10/10) (使用遥控器)

静聚焦度的调试

Cut-Off. Background and Sub-Contrast Adjustments

1. CRT CUT-OFF ADJUSTMENT

Adjusting point

2. WHITE BALANCE ADJUSTMENTS

3. SUB-CONTRAST ADJUSTMENTS (12C bus adjustment)

Note:

1 阴极易象管CRT载止的调试

2 白色平衡的调试

OSD ADJUSTMENT: T1001

PAL CHROMA ADJUSTMENTS

SUB-COLOUR (I2C bus adjustment)

NTSC CHROMA ADJUSTMENTS

SUB-TINT (I2C bus adjustment)

■ 在屏表示文字的调试:T1001

1.接收棋盘格测试图案信号。

头肌林等

(4) B²PROM初始值的设定用切换开关3输入下记数据于B²PROM装置之中。

1.接收棋盘格测试图案信号。 2. 设亮度控制干标准位置(5/10)。设计公正的计信证 (()10/10) (使用遥控器)

3. SUB-CONTRAST ADJUSTMENTS (1²C bus adjustment)

SUB-COLOUR (I²C bus adjustment)

SUB-TINT (I²C bus adjustment)

2. HORIZONTAL CENTER 50 (I²C bus adjustment)

3. HORIZONTAL CENTER 60 (I²C bus adjustment)