Texas Instruments DAC8551EVM Evaluation Module DAC8551EVM DAC8551EVM 데이터 시트
제품 코드
DAC8551EVM
www.ti.com
3.4.3
Capacitive Load Drive
3.5
Optional Signal-Conditioning Operational Amplifier (U8B)
EVM Operation
Another output configuration option is to drive a wide range of capacitive load requirements. However, all
operational amplifiers under certain conditions may become unstable, depending on the operational
amplifier configuration, gain, and load value. These are just a few of the factors that can affect operational
amplifier stability performance and should be considered when implementing.
operational amplifiers under certain conditions may become unstable, depending on the operational
amplifier configuration, gain, and load value. These are just a few of the factors that can affect operational
amplifier stability performance and should be considered when implementing.
In unity gain, the OPA627 operational amplifier, U2, performs well with large capacitive loads. Increasing
the gain enhances the amplifier’s ability to drive even more capacitance, and adding a load resistor further
improves the capacitive load drive capability.
the gain enhances the amplifier’s ability to drive even more capacitance, and adding a load resistor further
improves the capacitive load drive capability.
shows the jumper setting configuration for a capacitive load drive.
Table 7. Capacitive Load Drive Output Jumper Settings
Reference
Jumper Position
Function
Unipolar
Bipolar
W3
Open
Open
V
REF
H is disconnected from the inverting input of the output operational amplifier, U2.
W5
2-3
1-2
Supplies power, V
SS
, to the negative rail of operational amplifier, U2, for bipolar mode, or
ties it to AGND for unipolar mode.
W15
Open
Open
Capacitive load drive output of DAC is routed to pin 1 of W15 jumper and may be used as
the output terminal.
the output terminal.
One part of the dual-package operational amplifier, OPA2227 (U8), is used for reference buffering (U8A)
whereas the other is unused. This unused operational amplifier (U8B) is left for whatever operational
amplifier circuit application the user desires to implement. The 1206 footprint for the resistors and
capacitors surrounding the U8B operational amplifier are not populated and thus are available for easy
configuration. Test points TP6 and TP7 are not installed either; so, the user has the option of how to
connect the
whereas the other is unused. This unused operational amplifier (U8B) is left for whatever operational
amplifier circuit application the user desires to implement. The 1206 footprint for the resistors and
capacitors surrounding the U8B operational amplifier are not populated and thus are available for easy
configuration. Test points TP6 and TP7 are not installed either; so, the user has the option of how to
connect the
±
input signals to this operational amplifier. No test point has been made available for the
output due to space restriction, but a wire can simply be soldered to the output of the operational amplifier
via the unused component pads that connect to it.
via the unused component pads that connect to it.
Once the operational amplifier circuit is realized, the configuration becomes easy by simply populating the
corresponding components that match the circuit designed and leaving all other unused component
footprints unpopulated.
corresponding components that match the circuit designed and leaving all other unused component
footprints unpopulated.
DAC8550/51/52 Evaluation Module
14
SLAU172A – December 2005 – Revised September 2006