# Voltagetocurrent Converter A Linear Circuit With Transfer Ratio K

## Voltagetocurrent Converter A Linear Circuit With Transfer Ratio K

In this voltage-supplied **circuit**, the resistor R determines the current flowing through it. We usually say that the resistor converts the voltage V IN into a proportional current I OUT or it serves as a simple **voltage-to-current converter** - **a linear circuit with transfer ratio k** = I OUT /V IN [mA/V]. A bare resistor can convert voltage into ...

10 **k** 200 1000 pF 10 **k** 2 **k www.ti.com** Theory of Operation 2 Theory of Operation A more complete schematic for this design is shown in Figure 2. The V-Itransfer function of the **circuit** is based on the relationship between the input voltage, VIN, and the three current sensing resistors, RS1, RS2, and RS3.

In this **voltage**-supplied **circuit**, the resistor R determines the current flowing through it. We usually say that the resistor converts the **voltage** V IN into a proportional current I OUT or it serves as a simple **voltage-to-current converter** - **a linear circuit with transfer ratio k** = I OUT /V IN [mA/V]. A bare resistor can convert a **voltage** into a ...

The op-amp V-to-I **converter** is an active **circuit**; so, we may expect it to amplify. Really, it acts as **a linear circuit with transfer ratio k** = I OUT /V IN [mA/V] …

1026 **K**. Kumwachara et al. 2. Differential **voltage-to-current converter** 2.1. **Circuit** description The proposed CMOS differential **voltage-to-current converter circuit** and its block diagram are shown in Fig. !(a) and Fig.I(b), respectively.

0mA–20mA, 4mA–20mA, 5mA–25mA AND **converter** designed for the standard 0mA–20mA or VOLTAGE OUTPUTS 4mA–20mA analog signals, and can source up to • NONLINEARITY: 0.002% 36mA. The **ratio** between input voltage and output current is set by the single resistor RSET. The **circuit** • LOW OFFSET DRIFT: 1μV/°C can also be modified for voltage ...

21/07/1998 · **A linear voltage-to-current converter** (VIC) 100 for converting a differential input voltage V D into a differential output current ID is provided. The VIC (100) comprises a main stage (20) and a correction stage (30) having two FET each. Every stage is fed by a separate current source (150, 160).

**A linear voltage-to-current converter** (VIC) 100 for converting a differential input voltage V D into a differential output current ID is provided. The VIC (100) comprises a main stage (20) and a correction stage (30) having two FET each. Every stage is fed by a separate current source (150, 160). In two nodes (174, 172) the output currents of the stages are added.

A new resistorless **linear voltage-to-current converter** (VCC) utilizing ten MOS transistors is described. The **circuit** uses saturated MOS transistors with different threshold voltages to produce an ...

SUBSTANCE: proposed **converter** has transistors 1, 2, first resistor 3 inserted between emitters of transistors 1 and 2, current-regulating two-terminal networks 4, 5 connected, respectively, between emitters of transistors 1, 2 and negative power supply bus, first current divider 6 whose input is connected to collector of transistor 1, and ...