SANYO LA70020, LA70020M Datasheet

Overview

The LA70020 and LA70020M are 6-head amplifiers adding hi-fi recording/playback amplifiers to the LA70011/LA70011M recording/playback amplifiers for VHS VCR video signals. When used in combination with the LA71000M and LA71500M Series of video signal processing ICs, they permit Y/C recording without current adjustment.

Features

• Combining hi-fi and video amplifiers onto a single chip saves space on the circuit board.

• Connecting the playback amplifier input directly to the head reduces the number of external elements required.

• The recording amplifiers use a fixed-current drive configuration that yields stable recording characteristics even under changing loads. They include built-in automatic gain control circuits.

• The LA70020, encapsulated in DIP package, can be mounted at the right end of the LA70001 and LA70011 sockets. The LA70020M lacks this flexibility because its MFP package has a different pin pitch.

Package Dimensions

unit: mm

3170-DIP36S 400mil

unit: mm

3129-MFP36SD, MFP36SLF

Monolithic Linear IC

22798RM (OT) No. 5711-1/13

SANYO: DIP36S

[LA70020]

SANYO: MFP36SD SANYO: MFP36SLF

[LA70020M]

SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters

TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110-8534 JAPAN

Recording/Playback Amplifier for VHS VCRs

LA70020, 70020M

Ordering number : EN5711A

Parameter Symbol Conditions Ratings Unit

Maximum power supply voltage V

max 6.0 V

Ta ≤ 65°C [LA70020] 1000 mW

Maximum power dissipation Pd max Ta ≤ 65°C [LA70020M]

1000 mW

114.3

× 76.1 × 1.6 mm: glass epoxy Operating temperature Topr –10 to +65 °C Storage temperature Tstg –40 to +150 °C

Specifications

Maximum Ratings at Ta = 25°C

Parameter Symbol Conditions Ratings Unit

Recommended supply voltage V

5.0 V

Operating supply voltage range V

op 4.8 to 5.3 V

Operating Conditions at Ta = 25°C

No. 5711-2/13

LA70020, 70020M

Parameter Symbol Conditions

Ratings

Unit

min typ max

Playback Mode

Current drain I

CCP

Current flowing into pin 13 44 53 60 mA

SP-L CH1 G

1VIN= 38 mVp-p, f = 4 MHz 56 59 62 dB

Voltage gain

SP-H CH2 G

2565962dB

EP-L CH3 G

3565962dB

EP-H CH4 G

4565962dB

Voltage gain difference

∆G

1GVP1 — GVP2–10+1dB

∆G

2GVP3 — GVP4–10+1dB

Intermode gain difference ∆G

3GVP3 — GVP1–10+1dB

CH1 V

NIN1

Ratio of the output from a 1.1 MHz low pass

Converted input noise voltage

CH2 V

NIN2

filter to the output with no input under the

1.0 1.5 µVrms

CH3 V

NIN3

same conditions as those used for measuring

CH4 V

NIN4

voltage gain.

CH1 ∆V

1 Ratios of the output for VIN= 38 mVp-p and

Frequency characteristic

CH2 ∆V

fp2

f = 7 MHz to the voltage gains GVP1, GVP2,

–2.5 0 dB

CH3 ∆V

fp3GVP

3, and GVP4.

CH4 ∆V

fp4

CH1 ∆V

HDP

1 Ratio of the 8 MHz (secondary) component of

Secondary harmonic distortion

CH2 ∆V

HDP2

the output to its 4 MHz (primary) component

–40 –35 dB

CH3 ∆V

HDP3

for VIN= 38 mVp-p and f = 4 MHz.

CH4 ∆V

HDP4

CH1 ∆V

OMP

1 Output level, for f = 1 MHz, at which the ratio

Maximum output level

CH2 ∆V

OMP2

of the 3 MHz (tertiary) component to the

1.0 1.2 Vp-p

CH3 ∆V

OMP3

1 MHz (primary) component is -30 dB.

CH4 ∆V

OMP4

VCR1

Ratio of the output for V

= 38 mVp-p and

–40 –35 dB

Crosstalk SP

f = 4 MHz to G

Ratio of the output for V

= 38 mVp-p and

–40 –35 dB

f = 4 MHz to G

Ratio of the output for V

= 38 mVp-p and

–40 –35 dB

Crosstalk EP

f = 4 MHz to G

Ratio of the output for V

= 38 mVp-p and

–40 –35 dB

f = 4 MHz to G

∆V

ODC

1 CH1 — CH2

∆V

ODC

2 CH3 — CH4

Output DC offset

∆V

ODC

3 CH1 — CH3

–100 0 +100 mV

∆V

ODC

4 CH2 — CH4

∆V

ODC

5 CH1 — CH4

∆V

ODC

6 CH2 — CH3

Envelope detector output pin voltage V

ENV

T12 DC level with no signal input. 0 0.8 1.4 V

ENVSP

T12 DC level at which T13A output level is

2.0 2.5 3.0 V

Envelope detector output pin voltage SP

150 mVp-p for f = 4 MHz.

ENVSP

T12 DC level at which T13A output level is

4.0 4.5 5.0 V

400 mVp-p for f = 4 MHz.

ENVEP

T12 DC level at which T13A output level is

2.0 2.5 3.0 V

Envelope detector output pin voltage EP

125 mVp-p for f = 4 MHz.

ENVEP

T6 DC level at which T7A output level is

4.0 4.5 5.0 V

300 mVp-p for f = 4 MHz.

Comparator output voltage

COMP

1 T8 DC level for VIN= 38 mVp-p and f = 4 MHz. 0.4 0.7 V

COMP

2 T8 DC level for VIN= 38 mVp-p and f = 4 MHz. 4.5 4.8 V

SW-Tr on resistance during playback

PON

DC difference for 1 and 2 mA current inputs. 4 6 Ω

PON

TR1-1 Normal → Trick1 : *13.25.0V

Trick threshold level

TR1-2 Trick1 → Normal 1.2 2.8 V TR2-1 Normal → Trick2 : *10.00.8V TR2-2 Trick2 → Normal 1.2 2.8 V

Electrical Characteristics at Ta = 25°C (Video Circuits)

Continued on next page.

No. 5711-3/13

LA70020, 70020M

Parameter Symbol Conditions

Ratings

Unit

min typ max

HA playback threshold level

HAP-1 SP →EP : *11.75.0V HAP-2 EPSP 0.0 1.3 V

SW30 threshold level

SW30-1 Lch → Hch : *11.25.0V SW30-2 Hch → Lch 0.0 0.8 V

Recording Mode

Current drain I

CCR

Current input at pin 13. 52 59 66 mA

RSP

Output level for VIN= 400 mVp-p and

127 135 143 mVp-p

REC AGC AMP output level

f = 4 MHz.

REP

104 111 119 mVp-p

Intermode gain difference ∆GVR VRSP/VREP 1.4 1.7 2.0 dB

∆V

AGC

1-SP

Output level divided by V

RSP

or V

REP

for

0.5 1.0 dB

REC AGC AMP control characteristic

∆V

AGC

1-EP

f = 4 MHz and VIN= 700 mVp-p.

∆V

AGC

2-SP

Output level divided by V

RSP

or V

REP

for

–1.0 –0.5 dB

∆V

AGC

2-EP

f = 4 MHz and VIN= 100 mVp-p.

REC AGC AMP frequency characteristic

∆V

FRS

Ratio of f = 7 MHz output to f = 1 MHz output

–1 0 +1 dB

∆V

FRE

for VIN= 400 mVp-p. *2

∆V

HDRS

Ratio of the 8 MHz (secondary) component of

REC AGC AMP secondary primary distortion ∆V

HDRE

the output to its 4-MHz (primary) component –45 –40 dB for V

= 400 mVp-p and f = 4 MHz.

REC AGC AMP maximum output level

∆V

MOSP

Output level, for f = 4 MHz, at which the

20 22 mApp

∆V

MOEP

secondary distortion is –35 dB.

REC AGC AMP muting attenuation

∆V

MRS

Output level divided by V

RSP

or V

REP

for

–45 –40 dB

∆V

MRE

f = 4 MHz and VIN= 400 mVp-p.

∆V

CYS

Output ratio (4M +/ 629k)/4M for

REC AGC AMP cross modulation relative level

∆V

CYE

VIN= 400 mVp-p and f = 4 MHz at T9A and –45 –40 dB V

= 2.4 Vp-p and f = 629 kHz at T10A.

HA REC threshold level

-1 SP → EP : *11.75.0V

-2 EP → SP 0.0 1.3 V

REC MUTE threshold level

MUTE-1 MUTE OFF → MUTE ON *11.22.8V MUTE-2 MUTE ON → MUTE OFF 3.2 5.0 V

REC PB threshold level

PB-REC PB → REC *11.25.0V REC-PB REC → PB 0.0 0.8 V

Continued from preceding page.

Notes:* Before measuring the items under Playback Mode, input a 0 to 5.0 V trigger pulse to T11 (H-SYNC), the pin from which the LA70020 takes its T9

(HA) control switch timing.

* The resistance between pins 19 and 20 must be accurate to within 1.0%. *1. These are voltage application points. *2. Apply a DC voltage of approximately 1.8 V to the AGC wave detector filter pin (pin 21) to fix the AGC amplifier gain. *3. Apply a DC voltage to the REC-CUR-Adj pin (pin 18) and adjust the output level.

No. 5711-4/13

LA70020, 70020M

Parameter Symbol Conditions

Ratings

Unit

min typ max

Playback Mode

Current drain HI

CCP

Current flowing into pin 36 20 25 30 mA

Voltage gain

CH1 HG

1VIN= 20 mVp-p, f = 1.5 MHz 72.5 75.5 78.5 dB

CH2 HG

2 72.5 75.5 78.5 dB

Voltage gain difference ∆HG

HGVP1 — HGVP2–20+2dB

Intermode gain difference ∆HGEP

Voltage gain difference between SP and EP

1.7 2.4 3.1 dB

modes. *1 Ratio of the output from a 1.1-MHz low pass

Converted input noise voltage

CH1 HV

NIN1

filter to the output with no input under the

0.8 1.2 µVrms

CH2 HV

NIN2

same conditions as those used for measuring voltage gain.

Frequency characteristic

CH1 ∆HV

fp1

Ratios of the output for VIN= 20 mVp-p and f =

–3 –1 dB

CH2 ∆HV

fp2

2 MHz to the voltage gains HGVP1 and HGVP2.

CH1 ∆HV

HDP

1 Ratio of the 3-MHz (secondary) component of

Secondary harmonic distortion CH2 ∆HV

HDP2

the output to its 1.5-MHz (primary) component –50 –40 dB for V

= 20 mVp-p and f = 1.5 MHz.

CH1 ∆HV

OMP

1 Output level, for f = 1.5 MHz, at which the

Maximum output level CH2 ∆HV

OMP2

ratio of the 4.5 MHz (secondary) component 2 Vp-p to the 1.5 MHz (primary) component is –30 dB.

HCR

Ratio of the output for V

= 20 mVp-p and

–40 –35 dB

Crosstalk SP

f = 1.5 MHz to HG

HCR

Ratio of the output for V

= 20 mVp-p and

–40 –35 dB

f = 1.5 MHz to HG

HCR

Ratio of the output for V

= 20 mVp-p and

–40 –35 dB

Crosstalk EP

f = 1.5 MHz to HG

HCR

Ratio of the output for V

= 20 mVp-p and

–40 –35 dB

f = 1.5 MHz to HG

Output DC offset SP mode ∆V

ODC

1 CH1 — CH2 –30 0 +30 mV

Output DC offset EP mode ∆V

ODC

2 CH1 — CH2 –50 0 +50 mV

HA threshold level

HAP-1

SP → EP : *11.75.0V

HAP-2

EP → SP 0.0 1.3 V

SW30 threshold level

SW30-1

Lch → Hch : *11.25.0V

SW30-2

Hch → Lch 0.0 0.8 V

SW-Tr on resistance during playback H

RPON

DC difference for 1 and 2 mA current inputs. 4 6 Ω

Recording Mode

Current drain H

ICCR

Current input at pin 36. 55 65 75 mA

REC AGC AMP output level H

VOR

Output level for VIN= 180 mVp-p and

270 280 290 mVp-p

f = 1.5 MHz.

∆HV

AGC1

Output level divided by HVORfor f = 1.5 MHz

0.2 0.5 dB

REC AGC AMP control characteristic

and V

= 360 mVp-p.

∆V

AGC2

Output level divided by HVORfor f = 1.5 MHz

–0.5 –0.2 dB

and V

= 90 mVp-p.

REC AGC AMP muting attenuation ∆HV

Output level divided by HVORfor f = 4 MHz

–40 dB

and V

= 180 mVp-p.

REC AGC AMP cross modulation relative

HCMD04

0.4-MHz component for T3A V

= 90 mVp-p,

–40 dB

level for 0.4-MHz component f = 1.3 MHz + V

= 270 mVp-p, f = 1.7 MHz.

REC AGC AMP cross modulation relative

HCMD09

0.9-MHz component for T3A V

= 90 mVp-p,

–40 dB

level for 0.9-MHz component f = 1.3 MHz + V

= 270 mVp-p, f = 1.7 MHz.

REC MUTE threshold level

MUTE1

MUTE OFF → MUTE ON *11.22.8V

MUTE2

MUTE ON → MUTE OFF 3.2 5.0 V

REC PB threshold level

PB-REC PB → REC *11.25.0V REC-PB REC → PB 0.0 0.8 V

Electrical Characteristics at Ta = 25°C (Hi-Fi Circuits)

Note : These are voltage application points.

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