DICE/DWF SPECIFICATION RH1056 Precision, High Speed, JFET Input Operational Amplifier
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DIE CROSS REFERENCE (Notes 1 and 2)
LTC Finished Part Number
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Order DICE CANDIDATE Part Number Below RH1056 DICE RH1056 DWF*
RH1056A RH1056A
Please refer to LTC standard product data sheet for other applicable product information. *DWF = DICE in wafer form.
PAD FUNCTION
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59mils × 78mils, Backlap: 12mils Backside (substrate) is an alloyed gold layer.
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BALANCE – IN + IN V– BALANCE OUT V+
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DICE ELECTRICAL TEST LIMITS (Note 3)
SYMBOL VOS IOS IB AVOL PARAMETER Input Offset Voltage Input Offset Current Input Bias Current Large Signal Voltage Gain CONDITIONS (Note 3) (Note 4) (Note 4) VO = ±10V, RL = 2k 120 MIN MAX 0.5 50 200 UNITS mV pA pA V/mV
Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of its circuits as described herein will not infringe on existing patent rights.
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DICE/DWF SPECIFICATION RH1056 DICE ELECTRICAL TEST LIMITS (Note 3)
SYMBOL VOUT CMRR PSRR SR IS PARAMETER Output Voltage Swing Common Mode Rejection Ratio Power Supply Rejection Ratio Slew Rate Supply Current CONDITIONS RL = 2k, VS = ±15V VCM = ±11V, VS = ±15V VS = ±10V to ±18V (Note 5) MIN ±12 86 88 10 6 MAX UNITS V dB dB V/μs mA
Note 1: Dice are probe tested at 25°C to the limits shown. Final specs, after assembly cannot be guaranteed at the die level due to yield loss and assembly shifts. For absolute maximum ratrings, typical specifications, performance curves and finished product specifications, please refer to the standard product data sheet. Note 2: For dice tested to tighter limits than those listed above and/or, lot qualification based on sample lot assembly and testing, please contact LTC Marketing.
Note 3: VS = ±15V, TA = 25°C, VCM = 0V, unless otherwise noted. Note 4: This is not a reflection of actual IOS and IB. Typical values are 5pA and 20pA respectively at final test. JFETs sensitivity to light at wafer sort requires a loose limit. Note 5: Tested at a gain of “5”.
Rad Hard die require special handling as compared to standard IC chips. Rad Hard die are susceptible to surface damage because there is no silicon nitride passivation as on standard die. Silicon nitride protects the die surface from scratches by its hard and dense properties. The passivation on Rad Hard die is silicon dioxide that is much “softer” than silicon nitride. LTC recommends that die handling be performed with extreme care so as to protect the die surface from scratches. If the need arises to move the die around from the chip tray, use a Teflon-tipped vacuum wand.
This wand can be made by pushing a small diameter Teflon tubing onto the tip of a steel-tipped wand. The inside diameter of the Teflon tip should match the die size for efficient pickup. The tip of the Teflon should be cut square and flat to ensure good vacuum to die surface. Ensure the Teflon tip remains clean from debris by inspecting under stereoscope. During die attach, care must be exercised to ensure no tweezers touch the top of the die.
Wafer level testing is performed per the indicated specifications for dice. Considerable differences in performance can often be observed for dice versus packaged units due to the influences of packaging and assembly on certain devices and/or parameters. Please consult factory for more information on dice performance and lot qualifications via lot sampling test procedures. Dice data sheet subject to change. Please consult factory for current revision in production.
I.D.No. 66-13-1056
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Linear Technology Corporation
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(408) 432-1900 ● FAX: (408) 434-0507
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LT 0606 • PRINTED IN USA
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LINEAR TECHNOLOGY CORPORATION 2006
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