Datasheet LT6210, LT6211 (Analog Devices) - 6
| Fabricante | Analog Devices |
| Descripción | Single Programmable Supply Current, R-R Output, Current Feedback Amplifiers |
| Páginas / Página | 18 / 6 — e lecTrical characTerisTics (IS = 300µA per Amplifier) The. denotes the … |
| Formato / tamaño de archivo | PDF / 354 Kb |
| Idioma del documento | Inglés |
e lecTrical characTerisTics (IS = 300µA per Amplifier) The. denotes the specifications which
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LT6210/LT6211
e lecTrical characTerisTics (IS = 300µA per Amplifier) The
l
denotes the specifications which apply over the specified operating temperature range, otherwise specifications are at TA = 25°C. For V+ = 5V, V– = –5V: RSET = 1M to ground, AV = +2, RF = RG = 11k, RL = 1k; For V+ = 3V, V– = 0V: RSET = 270k to V–, AV = +2, RF = 9.31k, RG = 9.31k to 1.5V, RL = 1k to 1.5V unless otherwise specified. V+ = 5V, V– = –5V, IS = 300µA V+ = 3V, V– = 0V, IS = 300µA SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS
CMRR Common Mode Rejection Ratio VIN = V+ – 1.2V to V– + 1.2V 46 50 46 dB l 43 dB –ICMRR Inverting Input Current VIN = V+ – 1.2V to V– + 1.2V 0.15 ±1.5 0.2 µA/V Common Mode Rejection l ±2 µA/V PSRR Power Supply Rejection Ratio VS = ±1.5V to ±6V (Note 6) l 60 85 60 85 dB –IPSRR Inverting Input Current Power VS = ±1.5V to ±6V (Note 6) 0.4 ±2.2 0.4 ±2.2 µA/V Supply Rejection l ±4 ±4 µA/V IS Supply Current per Amplifier 0.3 0.525 0.3 0.38 mA l 0.6 0.43 mA IOUT Maximum Output Current RL = 0Ω (Notes 7, 11) l ±30 ±10 mA R – OL Transimpedance, ∆VOUT/∆IIN VOUT = V+ – 1.2V to V– + 1.2V 300 660 65 120 kΩ SR Slew Rate (Note 8) 120 170 20 V/µs tpd Propagation Delay 50% VIN to 50% VOUT, 30 50 ns 100mV + – P-P, Larger of tpd , tpd BW –3dB Bandwidth <1dB Peaking, AV = 1 10 7.5 MHz ts Settling Time To 0.1% of VFINAL, VSTEP = 2V 200 300 ns tf, tr Small-Signal Rise and Fall Time 10% to 90%, VOUT = 100mVP-P 40 50 ns HD2 2nd Harmonic Distortion f = 1MHz, VOUT = 2VP-P –40 ––45 dBc HD3 3rd Harmonic Distortion f = 1MHz, VOUT = 2VP-P –45 –45 dBc
Note 1:
Stresses beyond those listed under Absolute Maximum Ratings from increased copper area attached to the exposed pad. may cause permanent damage to the device. Exposure to any Absolute TJ is calculated from the ambient temperature TA and the power Maximum Rating condition for extended periods may affect device dissipation PD according to the following formula: reliability and lifetime. TJ = TA + (PD • θJA)
Note 2:
As long as output current and junction temperature are kept The maximum power dissipation can be calculated by: below the absolute maximum ratings, no damage to the part will occur. Depending on the supply voltage, a heat sink may be required. PD(MAX) = (VS • IS(MAX)) + (VS/2)2/RLOAD
Note 3:
The LT6210C/LT6211C is guaranteed functional over the operating
Note 6:
For PSRR and –IPSRR testing, the current into the ISET pin is temperature range of –40°C to 85°C. constant, maintaining a consistent LT6210/LT6211 quiescent bias point. A graph of PSRR vs Frequency is included in the Typical Performance
Note 4:
The LT6210C/LT6211C is guaranteed to meet specified Characteristics showing +PSRR and –PSRR with R performance from 0°C to 70°C. The LT6210C/LT6211C is designed, SET connecting ISET to ground. characterized and expected to meet specified performance from –40°C and 85°C but is not tested or QA sampled at these temperatures. The LT6210I/
Note 7:
While the LT6210 and LT6211 circuitry is capable of significant LT6211I is guaranteed to meet specified performance from –40°C to 85°C. output current even beyond the levels specified, sustained short- circuit current exceeding the Absolute Maximum Rating of ±80mA may
Note 5:
The LT6210 with no metal connected to the V– pin has a θJA of permanently damage the device. 230°C/W, however, thermal resistances vary depending upon the amount of PC board metal attached to Pin 2 of the device. With the LT6210
Note 8:
This parameter is guaranteed to meet specified performance mounted on a 2500mm2 3/32" FR-4 board covered with 2oz copper on through design and characterization. It is not production tested. both sides and with just 20mm2 of copper attached to Pin 2, θ
Note 9:
Differential gain and phase are measured using a Tektronix JA drops to 160°C/W. Thermal performance can be improved even further by using a TSG120YC/NTSC signal generator and a Tektronix 1780R Video 4-layer board or by attaching more metal area to Pin 2. Measurement Set. The resolution of this equipment is 0.1% and 0.1°. Five Thermal resistance of the LT6211 in MSOP-10 is specified for a 2500mm2 identical amplifier stages were cascaded giving an effective resolution of 3/32" FR-4 board covered with 2oz copper on both sides and with 100mm2 0.02% and 0.02°. of copper attached to Pin 5. Its performance can also be increased with
Note 10:
Input voltage range on ±5V dual supplies is guaranteed by additional copper much like the LT6210. CMRR. On 3V single supply it is guaranteed by design and by correlation To achieve the specified θ to the ±5V input voltage range limits. JA of 43°C/W for the LT6211 DFN-10, the exposed pad must be soldered to the PCB. In this package, θ
Note 11:
This parameter is tested by forcing a 50mV differential voltage JA will benefit between the inverting and noninverting inputs. 62101fc 6 Document Outline Features Description Applications Typical Application Absolute Maximum Ratings Pin Configuration Order Information Electrical Characteristics Typical AC Performance Typical Performance Characteristics Applications Information Typical Applications Simplified Schematic Package Description Revision History Typical Application Related Parts
e lecTrical characTerisTics (IS = 300µA per Amplifier) The
l
denotes the specifications which apply over the specified operating temperature range, otherwise specifications are at TA = 25°C. For V+ = 5V, V– = –5V: RSET = 1M to ground, AV = +2, RF = RG = 11k, RL = 1k; For V+ = 3V, V– = 0V: RSET = 270k to V–, AV = +2, RF = 9.31k, RG = 9.31k to 1.5V, RL = 1k to 1.5V unless otherwise specified. V+ = 5V, V– = –5V, IS = 300µA V+ = 3V, V– = 0V, IS = 300µA SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS
CMRR Common Mode Rejection Ratio VIN = V+ – 1.2V to V– + 1.2V 46 50 46 dB l 43 dB –ICMRR Inverting Input Current VIN = V+ – 1.2V to V– + 1.2V 0.15 ±1.5 0.2 µA/V Common Mode Rejection l ±2 µA/V PSRR Power Supply Rejection Ratio VS = ±1.5V to ±6V (Note 6) l 60 85 60 85 dB –IPSRR Inverting Input Current Power VS = ±1.5V to ±6V (Note 6) 0.4 ±2.2 0.4 ±2.2 µA/V Supply Rejection l ±4 ±4 µA/V IS Supply Current per Amplifier 0.3 0.525 0.3 0.38 mA l 0.6 0.43 mA IOUT Maximum Output Current RL = 0Ω (Notes 7, 11) l ±30 ±10 mA R – OL Transimpedance, ∆VOUT/∆IIN VOUT = V+ – 1.2V to V– + 1.2V 300 660 65 120 kΩ SR Slew Rate (Note 8) 120 170 20 V/µs tpd Propagation Delay 50% VIN to 50% VOUT, 30 50 ns 100mV + – P-P, Larger of tpd , tpd BW –3dB Bandwidth <1dB Peaking, AV = 1 10 7.5 MHz ts Settling Time To 0.1% of VFINAL, VSTEP = 2V 200 300 ns tf, tr Small-Signal Rise and Fall Time 10% to 90%, VOUT = 100mVP-P 40 50 ns HD2 2nd Harmonic Distortion f = 1MHz, VOUT = 2VP-P –40 ––45 dBc HD3 3rd Harmonic Distortion f = 1MHz, VOUT = 2VP-P –45 –45 dBc
Note 1:
Stresses beyond those listed under Absolute Maximum Ratings from increased copper area attached to the exposed pad. may cause permanent damage to the device. Exposure to any Absolute TJ is calculated from the ambient temperature TA and the power Maximum Rating condition for extended periods may affect device dissipation PD according to the following formula: reliability and lifetime. TJ = TA + (PD • θJA)
Note 2:
As long as output current and junction temperature are kept The maximum power dissipation can be calculated by: below the absolute maximum ratings, no damage to the part will occur. Depending on the supply voltage, a heat sink may be required. PD(MAX) = (VS • IS(MAX)) + (VS/2)2/RLOAD
Note 3:
The LT6210C/LT6211C is guaranteed functional over the operating
Note 6:
For PSRR and –IPSRR testing, the current into the ISET pin is temperature range of –40°C to 85°C. constant, maintaining a consistent LT6210/LT6211 quiescent bias point. A graph of PSRR vs Frequency is included in the Typical Performance
Note 4:
The LT6210C/LT6211C is guaranteed to meet specified Characteristics showing +PSRR and –PSRR with R performance from 0°C to 70°C. The LT6210C/LT6211C is designed, SET connecting ISET to ground. characterized and expected to meet specified performance from –40°C and 85°C but is not tested or QA sampled at these temperatures. The LT6210I/
Note 7:
While the LT6210 and LT6211 circuitry is capable of significant LT6211I is guaranteed to meet specified performance from –40°C to 85°C. output current even beyond the levels specified, sustained short- circuit current exceeding the Absolute Maximum Rating of ±80mA may
Note 5:
The LT6210 with no metal connected to the V– pin has a θJA of permanently damage the device. 230°C/W, however, thermal resistances vary depending upon the amount of PC board metal attached to Pin 2 of the device. With the LT6210
Note 8:
This parameter is guaranteed to meet specified performance mounted on a 2500mm2 3/32" FR-4 board covered with 2oz copper on through design and characterization. It is not production tested. both sides and with just 20mm2 of copper attached to Pin 2, θ
Note 9:
Differential gain and phase are measured using a Tektronix JA drops to 160°C/W. Thermal performance can be improved even further by using a TSG120YC/NTSC signal generator and a Tektronix 1780R Video 4-layer board or by attaching more metal area to Pin 2. Measurement Set. The resolution of this equipment is 0.1% and 0.1°. Five Thermal resistance of the LT6211 in MSOP-10 is specified for a 2500mm2 identical amplifier stages were cascaded giving an effective resolution of 3/32" FR-4 board covered with 2oz copper on both sides and with 100mm2 0.02% and 0.02°. of copper attached to Pin 5. Its performance can also be increased with
Note 10:
Input voltage range on ±5V dual supplies is guaranteed by additional copper much like the LT6210. CMRR. On 3V single supply it is guaranteed by design and by correlation To achieve the specified θ to the ±5V input voltage range limits. JA of 43°C/W for the LT6211 DFN-10, the exposed pad must be soldered to the PCB. In this package, θ
Note 11:
This parameter is tested by forcing a 50mV differential voltage JA will benefit between the inverting and noninverting inputs. 62101fc 6 Document Outline Features Description Applications Typical Application Absolute Maximum Ratings Pin Configuration Order Information Electrical Characteristics Typical AC Performance Typical Performance Characteristics Applications Information Typical Applications Simplified Schematic Package Description Revision History Typical Application Related Parts