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TA8859CP
TV BIAS DISTORTION COMPENSATION IC
TOSHIBA
TA8859CP
TENTATIVE TOSHIBA BIPOLAR LINEAR INTEGRATED CIRCUIT SILICON MONOLITHIC
TA8859CP
TV BIAS DISTORTION COMPENSATION IC
The TA8859CP is an IC for TV deflection stage to
compensate various horizontal, vertical distortion, with a
package of 16 pin DIP, controlled via " bus.
FEATURES
0 Vertical linearity correction
Vertical S correction
o E-W parabola
o E-W corner
0 Trapezium distortion compensation
BLOCK DIAGRAM
DIP16-P-300-2.54B
Weight : 1.11g (Typ.)
Bus control line
Trigger
input NC SCL SDA
16 15 14 (is) 12 GD (ii) G)
Pulse '
RAMP - _ - Trigger Bus interface
shaping
AGC f Linearity S
D com pensation compensation compensation
Parabola SETH GETH
. com pen- compen- -
corn pensatlon sation sation
_._I g. +
'trr I" -
Q) L2) Q) to 5 L6) (7) o.) TA8427 K
ETH EW Vcc EW Vertical NC Vertical
input drive feedback feedback drive
1 2001 -06-2 5
TOSHIBA TA8859CP
TERMINAL INTERFACE
100/1A
( s) ., l
_)-)- son
< . a . ack
x 2: $0 3: :3;
2 detection
y-l fi
TOSHIBA
OUTLINE OF FUNCTIONS
TA8859CP
OUTPUT
FUNCTION ADDRESS BIT WAVEFORM PICTURE
Picture Height 0010 6 -
Adjustment f''
Vertica1 Linearity 0011 5 w,,,,,w'"''''''
correction
f f'' Lower expansion
upper contraction
Vertical "S " Correction we'. -
(X3) 0 00 5 ,,,.,,w"'''"'",,,,,,,.
Vertical Shift 0101 3 ('''"')
Upper and lower
contraction
Vertical Compensation 0110 - "'''''l,,,,,,,,,,wts1,,,,,,,,
Correction of distortion caused by high-voltage
fluctuations
" - 's
Picture Width 0111 6 “I V -
Adjustment y'''''"''''"'""")-'-
E-W Parabola 1000 6 I"'"''"""'"') -
TOSHIBA
TA8859CP
SUB OUTPUT
FUNCTION ADDRESS BIT WAVEFORM PICTURE
E-W Corner Correction 1001 4 N"'"'''"'"'"''') -
Corner maximum
. . . _ --
Trapezium Pistortion 1010 6 " \ -
Compensation /
Horizontal / tf
. 1011 -
Compensation
Correction of distortion caused by high-voltage
fluctuations
Vertical f Correction 1110 4 "1,,ww"'1,,,,,
Upper and lower
contraction
TOSHIBA TA8859CP
" BUS CONTROL FUNCTIONS
FUNCTION ADSDURBESS DATA PRESET RANGE
Picture Height 00000010 x-x-7bit 01000000 -48-48%
V-linearity 00000011 x-x-x-Shit 00010000 - 13-13%
V-S Correction 00000100 x-x-x-Sbit 00000000 0--22%
V-shift 00000101 x-x-x-AGC-abit-x 00001000 -800-800mV
V-compensation 00000110 x - x - x - x -4bit 00000000 0~9%
Picture Width 00000111 x-x-6bit 00100000 1.6~7.3V
E-W Parabola 00001000 x-x-6bit 00100000 0~5.6V
E-W Corner 00001001 x-x-x-x-4bit 00000000 0--3.2V
Trapezium 00001010 x-x-6bit 00100000 0--1.2V
H-compensation 00001011 x - x - x - x -4bit 00000000 0~9%
V-f Correction 00001100 x-x-x-x-4bit 00000000 0~4%
(Note 1) Vertical Height is controlled by Sub Address 02(H), so no external control is
required.
(Note 2) AGC bit determines vertical AGC responce speed.
0 : High speed for Channel/Mode change
1 : Low speed (1 /5xHigh speed). for Normal reception/Text Mode.
(Note 3) All registers are cleared into the preset value under the condition of Vccs3V.
" BUS CONTROL FORMAT OUTLINE
Bus controlled format of TA8859CP is based on " Bus Control format of PHILIPS.
Data transmission format
S Slave Address 0
Sub Address
A Data
f 7bit
(1) Start condition, at end condition
"sxc)ii,i)-',,i,rir--]-
Start condition
-r)-j'-r/(ir-
At end condition
I 8bit
(2) Bit transmission
: Start Condition
: Stop Condition
: Response Confirmation
SDA is not changed.
SDA may be changed.
TOSHIBA
(3) Verification response
TA8859CP
Slave address
te,uT,iri(i,,_/r.. C=r9hi-mpedar A6 A5 A4 A3 A2 A1 A0 R/W
I ', High impedance
from master E I 1 0 o 0 1 1 0 o
SDA , I l im n
from slave E E Hg: 2peda ce "cf- Purchase of TOSHIBA " components
l l conveys a license under the Philips "
SCL ',' l " CIC) C, l Patent Rights to use these components
from master : ', in an " system, provided that the
-" system conforms to the Pc Standard
Specification as defined by Philips.
MAXIMUM RATINGS (Ta =25°C, VCC= 12V)
CHARACTERISTIC SYMBOL RATING UNIT
Supply Voltage VCC 15 V
Power Dissipation PD max 1.4 (Note) W
Input Signal Voltage em 5 Vp-p
Operating Temperature Topr - 20--65 "C
Storage Temperature Tstg - 55--150 "C
(Note) Derated above Ta=25°C, in the proportion of 11.2mW/°C.
RECOMMENDED POWER SUPPLY VOLTAGE
CHARACTERISTIC
SYMBOL
MIN. TYP.
Supply Voltage
10.8 12
TOSHIBA
TA8859CP
ELECTRICAL CHARACTERISTICS
(Unless otherwise specified, VCC=12V, Ta = 25°C)
Power supply current
CHARACTERISTIC SYMBOL MIN. TYP. MAX. UNIT
Supply Current ICC 20 30 45 mA
Terminal voltage
No. ITEM SYMBOL MIN. TYP. MAX. UNIT NOTE
1 AEHT V1 7.5 8.0 8.5 -
2 EW-OUT V2 5.8 6.1 6.4 -
3 VCC (12V) V3 - 12.0 - Terminal =VCC (12.0V)
4 EW-FB V4 - 12.0 - Terminal =VCC (12.0V)
5 GND V5 - 0.0 - Terminal=GND
6 V.FB V6 2.0 2.4 2.8 -
7 N.C. V7 - 0.0 - Terminal = GND
8 V.OUT V8 2.8 3.5 4.3 V -
9 SDA V9 4.8 5.1 5.4 -
10 SCL V10 4.8 5.1 5.4 -
11 N.C. V11 - 0.0 - Terminal =GND
12 PL GND V12 - 0.0 - Terminal =GND
13 V.IN V13 - 0.0 - Terminal =GND
14 T.C. V14 3.7 4.0 4.3 -
15 V.RAMP V15 3.7 4.0 4.3 -
16 V.AGC V15 - 0.0 - Terminal = GND
(Note) Data , Preset
TOSHIBA TA8859CP
AC CHARACTERISTICS
SYM- BUS
No. ITEM CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05 0 Change the height of trigger
pulse given to TP13, and
40 10 00 08 measure the time pulse height
when a timing pulse is output.
Vertical 06 07 08 09 20ms
. 640ps
Trigger Input -
1 Threshold VTH13 oo 20 oo 00 I FM 0.7 1.0 1.4 V
Voltage , I
OA OB oc 11i-1Fn14
(*) All data are
20 00 00 preset.
02 03 04 05 9 Give the trigger pulse to TP13.
(Pulse width : 640ps, cycle :
40 1O 00 08 20ms, Low level : 0V, High level
: 3V).
06 07 08 09 It Observe the wave shape at
Clamp Voltage TP14.
2 At TP14 VH14 oo 20 oo oo - - 3V pm 3.7 4.0 4.2 V
I ----------- ov
0A OB oc ‘— VH14
20 00 00 ------------ VL14
02 03 04 05 0 Same as No.2.
It Observe the wave shape at TP14
40 10 00 08 and TP15.
06 07 O8 09 . ----------- VM14
Threshold : Pin 14
I ! __________ . . .
3 Voltage At VM14 00 20 00 00 ! i VL14 2.8 3.0 3.2 V
TP14 I .
0A OB oc I Pin15
20 00 00 V.RAMP
Charging start point
8 2001-06-25
TOSHIBA TA8859CP
SYM- BUS
No. ITEM BOL CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05
40 10 00 08
06 07 08 09
Threshold
4 Voltage II At VL14 0 Same as No.3. 0.9 1.0 1.1 V
TP14 00 20 00 00
0A OB 0C
20 00 00
02 03 04 05
40 10 00 08
0 Measure the vertical ramp pulse
06 07 08 09 amplitude at TP15.
Vertical Ramp
Amplitude
0A OB 0C (*) All data are
preset.
20 00 00
02 03 04 05
lt Give no pulse to TP13.
40 10 00 08 Connect an external power
supply to TP6.
0 Measure the voltage of TP8
06 07 08 09 when the voltage of TP6 is
Vertical changed from 0V to 6V.
22 2 dB
6 AmplifierGain GV oo 20 oo oo 6 30
0A OB oc :e,i's,
E AV=GV(dB)
20 00 00 .
Pin6 DC
9 2001-06-25
TOSHIBA TA8859CP
SYM- BUS
No. ITEM BOL CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05
40 10 00 08
Vertical 06 07 08 09
Amplifier Max. 0 Same as No.6.
2. . 4. V
7 Output VH8 00 20 00 00 (*) All data are preset. 9 3 6 5
Voltage
0A OB 0C
20 00 00
02 03 04 05
40 10 00 08
Vertical 06 07 08 09
Amplifier Min.
V o N . . 0 0 0.3 V
8 Output L8 00 20 oo 00 Same as o.6
Voltage
0A OB 0C
20 00 00 00
02 03 04 05
0 Same as No.6.
40 10 00 08 0 Measure the current between
TP8 and GND when the voltage
Vertical 06 07 08 09 of TP6 is 6V.
Amplifier Max.
I 2 40 - A
9 Output max8 oo 20 oo oo 0 m
Current
0A OB 0C
(*) All data are
20 00 00 preset.
10 2001-06-25
TOSHIBA TA8859CP
No. ITEM 121- CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05
40 10 00 08
Vertical Saw 06 07 08 09 Same as No.2.
Measure the amplitude of saw
. . 2.2 V -
IO eriv‘fitude Vp6 oo 20 oo oo wave at TP6. 1.7 1.9 p-p
p (*)All data are preset.
0A OB 0C
20 00 00
02 03 04 05
7F Same as No.10.
, 10 00 08 Measure the amplitude Vp5(00)
00 at TP6 when the data of sub
. address (02) is turned to (00).
2,,rrt,ilcit d 06 07 08 09 Measure the amplitude Vp6(3F) +45 +48 +51
11 VmP LI” e VpH 00 20 00 00 at TP6 when the data of sub -45 -48 -51 %
arla e address (02) is turned to (00).
0A OB oc VPH = i VP6(3F) -VP6 (00)
VP6(3F) +VP6(00)
20 oo oo x100%
Turn it to (3F) the data of sub
02 2: 04 05 address (08) and adjust the data
of sub address (0A) for making
40 33 00 08 the shape of parabolic wave of
9 TP4 symmetrical.
06 07 08 0 Turn it to (00) the data of sub
address (08).
00 20 00 00 Measure V1 (10) and V2(10) at
Vertical TP6 when the data of sub
12 Linearlit Max v 0A OB 0C address (03) is (10). men +12.5 +15.o %
Clorrectlign . e Similarly measure - 10.0 -12.5 -15.0
1/1(00), V2 (co. V1 m
(1F) and V2 (IF). --
17; (00) and (1F) are V1
a oo 00 the data of sub Vit
2 address (08). l
Vg-- i 100x 10ms10ms
V1(00) -V1 (1F) +V2(1F) -V2(00)
2x (V1 (10) +V2 (10))
TOSHIBA TA8859CP
SYM- BUS
No. ITEM BOL CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05 Same as No.12.
IF Measure the amplitude V55(00)
40 10 08 at TP6 when the data of sub
00 address (04) is (00).
06 07 08 09 Measure the amplitude VS6(1F)
Max Of at TP6 when the data of sub
13 Vertical VS 00 20 00 00 address (04) IS (00). 20 24 28 %
S Correction V56(1F) szo); t: s I
OA OB 0C -
tt v = V56 (00) -VS6(1F)
vi-Ds, oo 00 V56 (00)
< x100 (%)
02 03 04 05 Same as No.13.
Measure the amplitude Vf6(00)
40 10 00 08 at TP6 when the data of sub
address (0C) is (00).
06 07 08 09 Measure the amplitude ermF)
Max Of at TP6 when the data of sub
14 Vertical v; 00 20 00 oo addrey(0t_0is IS (BF) 3 - - %
f Correction Vf6(OF) View]:
CA OB 0C - ___
H OF - V[6(OF) -V[6 (00)
'ls' VI - V
ir oo J6(00)
< 00 x100 (%)
02 03 04 05
40 10 00 08
Same as No.12.
06 07 08 09 Observe the wave shape at TP6.
Vertical NF
15 Center VC 00 20 00 00 vc-- 3.8 4.1 4.4 V
Voltage
0A OB 0C 10ms10ms
-.5 00 00
TOSHIBA TA8859CP
SYM- BUS
No. ITEM BOL CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05
40 10 00 It Same as No.15.
00 It Measure the vertical NF center
06 07 08 09 voltage VC(00) when the data
of sub address(OS) is (00).
Vertical NF 0 Measure the vertical NF center
16 DC Variation VDC 00 20 00 00 voltage VC(0F) when the data :720 1800 1880 mV
of sub address (05) is (00).
0A OB oc V -V
F VDC-- , C(OF) 2 C(00) (V)
vi-Ds, 00 00
02 03 04 05 0 Same as No.12.
0 Connect an external power
40 10 00 08 supply to TP1 and turn its
voltage to 0V.
0 Measure the amplitude VEHT
Vertical 06 07 08 09 (00) at TP6 when the data of
Amplitude OF sub address (06) is (00).
17 EHT VEHT 20 00 00 0 Measure the amplitude VEHT 8 9 10 V
Correction 00 (0F) at TP6 when the data of
0A OB 0C sub address (06) is (0F).
ji'?,'-, 00 00 VEHT= VEHT (00) -VEHT(0F)
< VEHT (00)
x100 (%)
02 03 04 05
0 Same as No.17.
40 10 00 08 0 Change it from IV to 7V the
voltage of the external power
supply connected with TP1.
06 07 08 09 a At this time, measure the
EHT Input variation of amplitude at TP6.
18 Dynamic VH1 0F 20 00 00 g 6.0 6.5 7.0 v
Range I tk.' LJ-v-'''""',,"
OA OB oc E l i
g VL1 VH1
't" 00 00 Pin1 DC
13 2001-06-25
TOSHIBA TA8859CP
SYM- BUS
No. ITEM CONTROL TEST METHOD MIN. TYP. MAX. UNIT
BOL DATA
02 03 04 05
40 10 00 08
06 07 08 09
EHT Input
19 Dynamic VL1 OF 20 00 00 9 Same as No.18. 1.3 1.8 2.3 V
Range II
Adj ust
03 O4 05
06 07 08 09
E-VV NF 0 S N 12
(Picture Width) u g .
0A OB 0C
Adjust
03 O4 05
06 07 08 09
E-W NF
21 Min. DC VL4 00 3F 00 00 a Measure the voltage at TP4. 1.4 1.5 1.7 V
(Picture Width)
0A OB 0C
Adjust
14 2001-06-25
TOSHIBA TA8859CP
SYM- BUS
No. ITEM CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05
40 10 00 08
0 Give 7V to TP1.
E W NF M 06 07 08 09 0 Measure the parabolic
Perabolic ax. amplitude at TP4.
22 Correction VpB 00 3F 3F 00 - 4.8 5.6 6.6 Vp-p
(Parabola) Ills,,,,
0A OB oc Pin4
ii' 00 00
02 03 O4 05
Give 7V to TP1.
40 10 00 08 Meayre the parabolic
amplitude at TP4.
Measure the amplitude VCR(00)
E W NF 06 07 08 09 when the data of sub address
C, OF (09) is (00).
23 C°mert. VCR 00 3F 3F Measure the amplitude VCR(0F) 2.5 3.2 4.1 Vp-p
orrec um 00 when data of sub address (09) is
(Corner) F
OA OB oc (0 ).
lit VCMOF) vclrflcs/l
-% 00 00
< VCR=VCR(00) -VCR(0F)
02 03 04 05 Same as No.10.
Measure the vertical scan center
40 10 00 08 voltage VC(00) at TP6 when the
data of sub address (0A) is (00).
06 07 08 09 Measure the vertical scan center
. voltage Vc (3F) at TP6 when the
Parabolic data of sub address (0A) is (3F).
24 Symmetry VTR 00 20 00 00 V -v F 13 14.5 A6 %
Correction VTR = ,vc(00)--vc(3F)
0A OB 0C x100 (%)
00 Pin6 10ms 10ms
15 2001-06-25
TOSHIBA TA8859CP
SYM- BUS
No. ITEM BOL CONTROL TEST METHOD MIN. TYP. MAX. UNIT
02 03 04 05
Same as No.22.
40 10 00 08 Connect an external power
supply to TP1.
06 07 08 09 Measure the parabolic
ii-W Parabolic ??""t‘ljtie EVE? Q/it., T731 when
25 EHT VEH1 oo 00 3F 00 evo g o I"; . - 4.7 - %
Correction Measure the amplitude VEH (1)
when the voltage of TP1 is 1V.
0A OB oc V V
EH 7 - EH 1
VEH1= ( ) ( )
1:: VEH (7)
'6' oo oo x100 (%)
02 03 04 05
Measure the parabolic phase
center voltage Vpc(oo) at TP4
06 07 08 09 when the data of sub address
(OB) is (00).
26 E-VV DC. EHT VEH2 00 3F 3F 00 Measure the voltage Vpc(0F) 1.0 1.4 1.8 v
Correction .
when the data IS (0F).
0A OB 0C
1. oo xzéézziii‘v'
v,'-',-, I oo VEH2=VPC(OF) 'VPC (00)
02 03 O4 05
40 10 00 10
Connect an ampere meter
between TP2 and GND.
Max. Of E-W 06 07 08 09 Measure the current.
Amplifier
27 I .14 .2 .27 A
Output max2 oo 20 00 oo 0 0 o m
Current
0A OB 0C
20 00 00
TOSHIBA
TA8859CP
(Note) Concerning fall time
When used in actual applications, if the fall time for input pulse becomes greater output may
not be generated in some cases, so please take care.
CHARACTERISTIC METHOD MIN. TYP. MAX. UNIT
Trigger Input Fall Time As below - 1.0 7.6 ps
While monitoring the input waveform of Pin 13 oscilloscope, please measure fall time from
10% to 90%.
Enlargenk
--_-----_-_- 100% (3.0V)
0% (GND)
TOSHIBA
TEST CIRCUIT
TA8859CP
To " bus control
Vertical trigger input SCL 2f
(5;) (gs. 1 n
Ps t's
w <6 052
",122," 11 10 9 irpr
AGC Lamp Pulse Vertical I L NC SCL SDA "r
filter filter shaping trigger GND
filter input
) T A 8 8 5 9 c P
EHT EW EW Vertical Vertical
input drive Vcc feedback GND feedback NC drive
(2) Q)
TP2 . 1
TP1 O A marked condensers use low tana products.
Tr are all 2SC1815Y
APPLICATION CIRCUIT
Vertical trigger
u. Lt, l? T"
1 I tt + 'it' Cl >
n N. t', g m
q. + N I e; N
16 15 14 13 12 11
GND NC
) T A 8 8 5 9 c P
F.B.T ll 27V 12V
GND NC
1 2 3 4 5 6 7 8
AAA Vertical output
l Deflecting +
g yoke i +27V l D.Y.
'e 12V
" lt E» q E
"tdt Pr m.
'Wh-Me, - '" M
l I I l S, g
' . Modulation
Deflecting transistor transistor
18 2001-06-25
TOSHIBA TA8859CP
PACKAGE DIMENSIONS
DIP16-P-300-2.54B UNIT : mm
6.6i0.2
clit-JL-lt-ll-lL-ll-l
19.75MAX
19.25i0.2
{33:03
0.735TYP -
Weight : 1.11g (Typ.)
19 2001-06-25
TOSHIBA TA8859CP
RESTRICTIONS ON PRODUCT USE
000707EBA
OTOSHIBA is continually working to improve the quality and reliability of its products.
Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent
electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer,
when utilizing TOSHIBA products, to comply with the standards of safety in making a safe
design for the entire system, and to avoid situations in which a malfunction or failure of such
TOSHIBA products could cause loss of human life, bodily injury or damage to property.
In developing your designs, please ensure that TOSHIBA products are used within specified
operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please
keep in mind the precautions and conditions set forth in the "Handling Guide for
Semiconductor Devices," or "TOSHIBA Semiconductor Reliability Handbook" etc..
OThe TOSHIBA products listed in this document are intended for usage in general electronics
applications (computer, personal equipment, office equipment, measuring equipment, industrial
robotics, domestic appliances, etc.). These TOSHIBA products are neither intended nor
warranted for usage in equipment that requires extraordinarily high quality and/or reliability or
a malfunction or failure of which may cause loss of human life or bodily injury ("Unintended
Usage"). Unintended Usage include atomic energy control instruments, airplane or spaceship
instruments, transportation instruments, traffic signal instruments, combustion control
instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA
products listed in this document shall be made at the customer's own risk.
0 The products described in this document are subject to the foreign exchange and foreign trade
OThe information contained herein is presented only as a guide for the applications of our
products. No responsibility is assumed by TOSHIBA CORPORATION for any infringements of
intellectual property or other rights of the third parties which may result from its use. No
license is granted by implication or otherwise under any intellectual property or other rights of
TOSHIBA CORPORATION or others.
0 The information contained herein is subject to change without notice.
20 2001-06-25
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