MP7643 Exar Corporation, MP7643 Datasheet

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MP7643

Manufacturer Part Number
MP7643
Description
4-channel, Programmable Gain Voltage Output, 15 Mhz Input Bandwidth 8-bit Dacs With Multiplying Parallel Digital Data Port
Manufacturer
Exar Corporation
Datasheet
1.MP7643.pdf (12 pages)

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
Meier Automation Equipment Co., Limited Meier Automation Equipment Co., Limited
Part Number:
MP7643AS
Manufacturer:
MPS
Quantity:
20 000
FEATURES
GENERAL DESCRIPTION
analog signals such as video, composite video and CCD. The
device includes 4-channels of high speed, wide bandwidth, two
quadrant multiplying, 8-bit accurate digital-to-analog converter.
It includes an output drive buffer per channel capable of driving a
+1mA (typ) load. DNL of better than +0.5 LSB is achieved with a
channel-to-channel matching of typically 0.5%. Stability, match-
ing, and precision of the DACs are achieved by using MPS’ thin
film technology. Excellent channel-to-channel isolation is also
achieved with MPS’ BiCMOS process which cannot be
achieved using a typical CMOS technology.
small signal bandwidth from V
ORDERING INFORMATION
Programmable Gain
4 Independent 2-Quadrant Multiplying 8-Bit DACs
with Output Amplifiers
Dual Positive (+10 V and +5 V) Supplies or
Dual (+5 V) Supplies Capability
High Speed:
Very Low Noise Gain Control
Low Power: 80mW
Low AC Voltage Reference Feedthrough
Excellent Channel-to-Channel Isolation
The MP7643 is ideal for digital gain control of high frequency
An open loop architecture (patent pending) provides wide
Rev. 1.00
12.5 MHz Digital Clock Rate
V
(typ)
Voltage Reference Input Bandwidth:
15 MHz
REF to
Plastic Dip
Package
V
Type
OUT
SOIC
Settling Time: 150ns to 8-bit
REF
Temperature
–40 to +85 C
–40 to +85 C
to output up to 15 MHz (typ),
Range
MP7643AN
MP7643AS
Part No.
1
Voltage Output, 15 MHz Input Bandwidth
fast output settling time of 150 ns, and excellent V
feedthrough isolation. The negative feedback terminal of the
output op amp is available for user gain control. In addition, low
distortion in the order of 0.25% with a 1 V p-p, 1 MHz signal is
achieved.
V
mum system design.
BiCMOS (BiCMOS IV
process enables precision high speed analog/digital (mixed-
mode) circuits to be fabricated on the same chip.
REFN
APPLICATIONS
The combination of a constant input Z and the ability to vary
The MP7643 is fabricated on a junction isolated, high speed
(LSB)
INL
DNL = +0.5 LSB, INL = +1 LSB (typ)
DACs Matched to +0.5% (typ)
Low Harmonic Distortion: 0.25% typical with
V
Latch-Up Free
ESD Protection: 2000 V Minimum
Direct High-Frequency Automatic Gain Control
Video AGC & CCD Level AGC
Convergence Adjustment for High-Resolution
Monitors (Workstations)
Multiplier Replacement
+1
+1
REF
within V
= 1 V p-p @ 1 MHz
4-Channel, Programmable Gain
CC
–1.8 V to V
8-Bit DACs with Multiplying
(LSB)
DNL
+0.5
+0.5
TM
Parallel Digital Data Port
) process with thin film resistors. This
EE
+1.5 V allows flexibility for opti-
Gain Error
(% FSR)
+1.5
+1.5
MP7643
REF

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MP7643 Summary of contents

Page 1

... Low AC Voltage Reference Feedthrough Excellent Channel-to-Channel Isolation GENERAL DESCRIPTION The MP7643 is ideal for digital gain control of high frequency analog signals such as video, composite video and CCD. The device includes 4-channels of high speed, wide bandwidth, two quadrant multiplying, 8-bit accurate digital-to-analog converter. ...

Page 2

... MP7643 SIMPLIFIED BLOCK DIAGRAM DBO DB7 (MSB Rev. 1. LATCH1 DAC1 LATCH2 DAC2 LATCH3 DAC3 LATCH4 DAC4 Control Logic DGND 2 V REF1 V OUT1 INV1 V REF2 V OUT2 INV2 V REF3 V OUT3 INV3 V REF4 V OUT4 INV4 V REFN ...

Page 3

... NAME 15 INV3 16 V OUT3 17 V REF3 18 V REF4 19 V OUT4 20 INV4 DB0 24 DB1 25 DB2 DB3 28 DB4 3 MP7643 DB4 28 DB3 DB2 25 DB1 24 DB0 INV4 V 19 OUT4 18 V REF4 17 V REF3 16 V OUT3 15 INV3 S28 DESCRIPTION ...

Page 4

... MP7643 ELECTRICAL CHARACTERISTICS TABLE FOR DUAL SUPPLIES Unless Otherwise Noted Output Load = No Resistive Load, V Parameter Symbol DC CHARACTERISTICS Resolution (All Grades) N Differential Non-Linearity DNL Integral Non-Linearity INL Monotonicity Gain Error GE Zero Scale Offset Z OFS Output Drive Capability I O REFERENCE/INV INPUTS ...

Page 5

... Package Power Dissipation Rating @ PDIP, SOIC, PLCC CC EE Derates above MP7643 Units Conditions – + – 150 ...

Page 6

... MP7643 A1, A0 DB0 to DB7 LD V OUT 2-4 A0, A1 Decoder LD Figure 2. Input Control Logic (Simplified) Block Diagram MSB Note: These outputs must be ratioed up for gain in the output amplifier. Analog Output vs. Digital Code (With V Rev. 1. ...

Page 7

... THEORY OF OPERATION The MP7643 is a 4-channel multiplying D/A converter that in- corporates a novel open loop architecture invented by MPS. The design produces the wider bandwidth, faster settling time, more constant group delay, and a lower noise operation compared to the conventional R-2R based architectures. This device is particularly useful in applications where analog multi- pliers are used to perform the gain adjustment function for high frequency analog signal conditioning ...

Page 8

... MP7643 1 0.75 0.5 0.25 0 –0.25 –0.5 –0.75 –1 0 Graph 1. Relative Accuracy vs. Digital Code Gain (5dB/DIV) Group Delay (20 ns/DIV) Graph 2. Typical Gain and Group Delay vs. Frequency (with 5K Resistor Across Output to V Rev. 1.00 64 128 Digital Code DACs MHz 8 192 256 ) EE ...

Page 9

... BSC 2.54 BSC 0.115 0.150 2.92 3. 0.055 0.070 1.40 1.78 0.020 0.100 0.508 2.54 (0.58 mm) for all four corner leads only. 9 MP7643 E C ...

Page 10

... MP7643 28 Seating Plane e Rev. 1.00 28 LEAD SMALL OUTLINE (300 MIL JEDEC SOIC) S28 INCHES MILLIMETERS SYMBOL MIN MAX MIN A 0.097 0.104 2.464 A1 0.0050 0.0115 0.127 B 0.014 0.019 0.356 C 0.0091 0.0125 0.231 D 0.701 0.711 17.81 E 0.292 0.299 7.42 e 0.050 BSC 1.27 BSC H 0 ...

Page 11

... Rev. 1.00 Notes 11 MP7643 ...

Page 12

... MP7643 EXAR Corporation reserves the right to make changes to the products contained in this publication in order to im- prove design, performance or reliability. EXAR Corporation assumes no responsibility for the use of any circuits de- scribed herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent infringement. Charts and schedules contains here in are only for illustration purposes and may vary depending upon a user’ ...

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