Gennum GB4571-CDA Video buffer with precision strobed dc restore Datasheet

GB4571 Video Buffer with
Precision Strobed DC Restore
DATA SHEET
FEATURES
DESCRIPTION
• accurate clamping to within ± 1 mV
The GB4571 is a high performance video buffer with DC
restore used primarily for accurate back porch clamping. Key
features include operation from ± 4.5 V to ± 13.2 V supply
voltages, fast recovery from sudden changes in DC offset,
± 0.1 dB flatness to 80 MHz and availability of industry standard
DIP and SOIC packages.
• less than 1 mV clamping distortion
• variable clamping range (VEE + 3.0 V to VCC - 4.5 V)
• ultra low differential gain and differential phase
In the typical back porch clamping application, a negative
going back porch pulse from an external sync separator (such
as the GS4881 or GS4882) is applied to the GB4571's STROBE
input. While STROBE is low, the GB4571 determines the
correct DC level shift that should be applied to the input signal
by integrating over the entire back porch period. This reduces
sensitivity to noise and improves the accuracy of the DC
restoration compared to systems using sample and hold
techniques. Typical clamping accuracy of ± 1 mV is achieved
by the GB4571.
• fast recovery from sudden changes in DC offsets
• less than ± 0.15° phase delay variation at 3.58 MHz
• ± 0.1 dB flatness to 80 MHz
• ± 4.5 V to ±13.2 V supply voltage range
PIN CONNECTIONS
GB4571
APPLICATIONS
C HOLD
1
8
VCC
V IN
2
7
VOUT
V CLAMP
3
6
VEE
STROBE
4
5
GND
•
•
•
•
Clamping of NTSC, PAL, SECAM & RGB Video Signals
Multimedia Graphics Overlay
Production Switchers
Linear Keyers
SIMPLIFIED CIRCUIT DIAGRAM
AVAILABLE PACKAGING
VCC
8
8 pin PDIP
VIN
8 pin SOIC
2
COUPLING
CAP
7
VOUT
6
VEE
3
VCLAMP
4
STROBE
ORDERING INFORMATION
Part Number
Package
Temperature Range
GB4571-CDA
8 pin PDIP
0° to 70°C
GB4571-CKA
8 pin SOIC
0° to 70°C
GB4571-CTA
8 pin SOIC Tape
0° to 70°C
NON-LNEAR
V TO I
CONVERTER
-
HIGH Z
BUFFER
+
1
5
GND
CHOLD
Document No. 521 - 17 - 01
GENNUM CORPORATION P.O. Box 489, Stn A, Burlington, Ontario, Canada L7R 3Y3 tel. (905) 632-2996 fax: (905) 632-2055
Japan Branch: A-302, Miyamae Village, 2-10-42, Miyamae, Suginami-ku, Tokyo 168, Japan
tel. (03) 3247-8838
fax. (03) 3247-8839
ABSOLUTE MAXIMUM RATINGS
PARAMETER
VALUE/UNITS
± 13.5 V
Supply Voltage
-65°C ≤ T ≤150°C
S
Storage Temperature Range
Lead Temperature (soldering, 10 seconds)
260°C
±5 V
Differential Video Input Voltage
-VS ≤ V STROBE ≤ +VS
Strobe Input Voltage
ELECTRICAL CHARACTERISTICS
V S = ±5 V, TA = 0° to 70°C, RL = 10kΩ, CL = 10 pF, unless otherwise shown.
PARAMETER
Supply Voltage
+ Supply Current
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
VS
± 4.5
±5.0
± 13.2
V
I+
-
10
15
mA
±
- Supply Current
I-
Small Signal B.W.
B.W.
(flattened response)
±0.1 dB after insertion loss,
-
10
15
mA
80
-
-
MHz
VIN=100 mV p-p
Phase Delay
øD
at 3.58 MHz and 4.43 MHz
-2.85
-3.0
-3.15
deg
Differential Gain
∂g
at 3.58 MHz and 4.43 MHz
-
0.01
0.03
%
Differential Phase
∂p
at 3.58 MHz and 4.43 MHz
-
0.01
0.05
deg
Input Voltage
VIN
VEE+3
-
VCC-3
V
Input Resistance
RIN
25
-
-
kΩ
Input Capacitance
CIN
-
2.0
-
pF
Output Resistance
ROUT
Insertion Loss
SIGNAL
PATH
DO NOT OPEN PACKAGES OR HANDLE
EXCEPT AT A STATIC-FREE WORKSTATION
0°C ≤ TA ≤ 70°C
Operating Temperature Range
POWER
SUPPLIES
CAUTION
ELECTROSTATIC
SENSITIVE DEVICES
Power Supply Rejection Ratio
I.L.
PSRR
ƒ= 0 to 1 MHz
-
8.6
10
Ω
ƒ= 100 MHz
-
20
40
Ω
ƒ= 100 kHz
-
0.03
0.05
dB
ƒ= 1 kHz
50
-
-
dB
ƒ= 10 MHz
20
-
-
dB
PP Signal / RMS Noise
S/N
VSIG =1 Vp-p
75
-
-
dB
Strobe Pulse Width
t PWL
Active low
2.0
2.5
-
µs
Accuracy
VIN = 0.5V to 2Vp-p,
-
±1
±2
mV
Recovery Time
Scan rate 15.7kHz & 2µs strobe pulses
0.5V offset
-
1
3
ms
0.1V offset
-
190
600
µs
Distortion amplitude
-
-
±1
mV
Distortion duration (amp. within 0.1 mV)
-
-
3
µs
VIN = 1 Vp-p
VEE+3
-
VIH
1.8
-
-
V
VIL
-
-
0.8
V
I IL, IIH
-
-
20
µA
STROBE pulses at H rate
Clamping Distortion
VCLAMP
Clamp Voltage Range
Input Logic High
STROBE
Input Logic Low
Strobe Input Current
NOTE:
VCLAMP
1. V A or B = +1 Vp-p output taken from OUTPUT
2 . VC = +1 Vp-p output taken from V A or V B
521 - 17 - 00
2
VCC-4.5
V
DETAILED DESCRIPTION
The GB4571 is intended for video applications requiring
precision DC restoration. The GB4571's signal path consists
of a simple Darlington emitter follower for maximum bandwidth
performance. With this configuration, the GB4571’s small
signal frequency response remains with ± 0.1 dB of 0 dB out
to 80 MHz.
The resulting voltage is buffered and fed back to the GB4571
input through a non-linear V to I converter. This feedback
current transfers charge to the GB4571's input coupling
capacitor which act as a DC reservoir for corrective level
shifts.
The non - linear V to I converter feeds back larger corrective
currents to the GB4571's input for larger differences between
VCLAMP and V IN than it does for proportionally smaller
differences between VCLAMP and VIN voltages. The non-linear
V to I converter thus provides for substantially faster recovery
from large changes in input signal DC offset while maintaining
the overall stability of the device during near-steady-state
operation.
Optimal frequency response for the GB4571 occurs with load
capacitance in the range of 18 pF. For smaller loads, an
external capacitor can be added to maintain the bandwidth of
the device. As shown in Figure 1, a small resistor, ROUT, should
be included in series with the GB4571 output to obtain optimal
response flatness. For a nominal load of 18 pF, ROUT should
be chosen to be approximately 30 Ω.
A 400 Ω resistor in series with the input provides some phase
advance to improve the stability of the DC restoration feedback
loop. The ratio of the capacitors CIN :CHOLD should be
maintained at approximately 20,000:1 to ensure closed loop
stability. Additional reductions in recovery time from changes
in DC offset may be obtained by reducing the values of CIN
and CHOLD.
The DC restoration function is achieved through the use of a
strobed operational transconductance amplifier (OTA). The
OTA receives its input from a differential low pass filter. This
filter has a corner frequency of 600 kHz which attenuates the
color burst and any high frequency noise that may be present
in the signal. One input to the low pass filter senses the output
of the GB4571, while the other input is connected to the clamp
voltage reference. When enabled by taking STROBE low, the
OTA sources or sinks current depending on whether the
output of the GB4571 is below or above VCLAMP respectively.
In the application shown in Figure 1, the STROBE signal is
provided by the back porch pulse of the GS4881 sync
separator. The GS4881 generates back porch pulses which
remain at horizontal rate throughout the vertical interval.
Constant rate STROBE pulses eliminate the possibility of
introducing a DC offset due to a change in duty cycle.
The output current from the OTA is integrated by the hold
capacitor connected to pin 1, CHOLD. C HOLD develops a
corrective voltage during the period when the clamp is enabled
and holds the corrective voltage while the clamp is disabled.
VCC
VEE
0.1
0.1
8
VIDEO
75k
COLOR
BURST
FILTER
6
GB4571
2 STROBED
7
DC RESTORE
22
3
VCLAMP
1
4
5
ROUT
CLAMPED
VIDEO
CLOAD OUTPUT
CHOLD
1.0nF
0.1
VCC
2
8
GS4881
SYNC
SEPARATOR
4
5
6
0.1
BACK
PORCH
PULSE
680k
0.1
All resistors in ohms, all capacitors in microfarads unless otherwise stated.
Fig. 1 GB4571 Typical Application Circuit
3
521 - 17 - 00
-5V
+5V
+5V
0.1
0.1
0.1
3
NETWORK
ANALYSER
8
6
*10
GB4571
2
55
RS
7
4
1
CLC110
8
VIDEO OUTPUT
TO NETWORK
ANALYSER I/P
5
Sweep: 1-100MHz
Level: 0dBM
1
4
75
CL
10k
0.01
0.1
+5V
+5V
All resistors in ohms, all capacitors in microfarads unless otherwise stated.
*
This input capacitor must be shorted when performing
Differential Gain and Differential Phase tests.
Fig. 2 Frequency Response Test Circuit
GB4571 TYPICAL PERFORMANCE CURVES (VS = ±5 V, unless otherwise specified)
6.0
RS = ø
1
CL = 68pF
-1
4.0
PHASE (deg)
CL = 120pF
GAIN (dB)
RS = ø
0
CL = 82pF
CL = 180pF
2.0
CL = 270pF
-2
CL = 270pF
-3
CL = 180pF
-4
CL = 120pF
-5
C L = 100pF
0.0
-6
CL = 82pF
-7
-2.0
1
10
-8
100
2
10
FREQUENCY (MHz)
FREQUENCY (MHz)
Fig. 3 Gain vs Frequency
Fig. 4 Phase vs Frequency
-0.5
0.1
-1
0.05
-1.5
RS = 30Ω
PHASE (deg)
GAIN (dB)
0
CL = 15pF
-0.05
RS = 28Ω
CL = 18pF
-0.1
-0.15
-0.2
RS = 30Ω
CL = 15pF
-2
-2.5
-3.0
-3.5
-4
1
10
2
100
10
FREQUENCY (MHz)
FREQUENCY (MHz)
Fig. 6 Phase vs Frequency
Fig. 5 Flattened Frequency Response
521 - 17 - 00
4
DOCUMENT IDENTIFICATION
PRODUCT PROPOSAL
This data has been compiled for market investigation purposes
only, and does not constitute an offer for sale.
ADVANCE INFORMATION NOTE
This product is in development phase and specifications are
subject to change without notice. Gennum reserves the right to
remove the product at any time. Listing the product does not
constitute an offer for sale.
PRELIMINARY DATA SHEET
The product is in a preproduction phase and specifications are
subject to change without notice.
DATA SHEET
The product is in production. Gennum reserves the right to make
changes at any time to improve reliability, function or design, in
order to provide the best product possible.
Gennum Corporation assumes no responsibility for the use of any circuits described herein and makes no representations that they are free from patent infringement.
© Copyright September 1994 Gennum Corporation. All rights reserved. Printed in Canada.
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521 - 17 - 00