SLVAFH6 November 2023 LM25066 , LM5066 , LM5066I , TPS25984 , TPS25985 , TPS25990 , TPS536C9T

4 ISYS Resistor (R_ISYS) and Gain (ISYS_IN_GAIN) Selection in TPS536C9T VR14 Controller

The IMON pin in TPS25984, TPS25985, or TPS25990 eFuses serves two purposes:

sets the over-current protection threshold and the scalable fast-trip threshold during steady-state.
provides a fast and accurate analog output load current monitor signal during steady-state.

Therefore, the same resistance, either called R_IMON or R_ISYS, is determined by considering the required over-current protection threshold for the eFuses as well as the full-scale analog voltage range of the ISYS_IN pin in the VR14 controller.

The analog current monitoring output (I_IMON), sourced on the IMON pin in TPS25984, TPS25985, or TPS25990 eFuses, is defined as Equation 1.

Equation 1.

I_{I M O N} = I_{I N} \times G_{I M O N}

G_IMON is the current monitor gain (I_IMON : I_IN) in TPS25984, TPS25985, or TPS25990 eFuses, whose typical value is 18.18 µA/A. I_IN is the total input current to the platform. The over-current condition is detected by comparing the voltage at the IMON pin (V_IMON) by dropping the I_IMON across the R_IMON resistance against a reference threshold of V_IREF. V_IMON is obtained using Equation 2.

Equation 2.

V_{I M O N} = I_{I M O N} \times R_{I M O N} = I_{I N} \times G_{I M O N} \times R_{I M O N}

The circuit-breaker threshold during steady-state (I_OCP) can be calculated using Equation 3. For more details, see the Steady-State Over-current Protection (Circuit-Breaker) section in TPS25984, TPS25985, or TPS25990 eFuses data sheets.

Equation 3.

I_{O C P} = \frac{V_{I R E F}}{G_{I M O N} \times R_{I M O N}}

In TPS25990 eFuse, V_IREF is set through PMBus® using E0h register.

In TPS25984 and TPS25985 eFuses, V_IREF is specified by placing a resistor (R_IREF) at the IREF pin. Equation 4 is used to calculate the value of R_IREF.

Equation 4.

R_{I R E F} = \frac{V_{I R E F}}{I_{I R E F}}

I_IREF = 25 µA (typical).

The total platform input current drawn from the PSU, as sensed by the VR14 controller at the ISYS_IN pin, is given by Equation 5.

Equation 5.

I_{S Y S} (A) = I_{I N} (A) \times R_{I S Y S} (Ω) \times G_{I S Y S} (\frac{μ A}{A}) \times I S Y S_I N_G A I N (\frac{A}{μ A \times Ω})

I_IN is the platform current drawn from the PSU. Essentially, G_ISYS and G_IMON are the same parameter with identical values. R_ISYS and R_IMON are the same parameter with identical values.

ISYS_IN_GAIN: A scaling factor internal to the VR14 controller to account for the external gain factors G_ISYS and R_ISYS.

4 ISYS Resistor (RISYS) and Gain (ISYS_IN_GAIN) Selection in TPS536C9T VR14 Controller

4 ISYS Resistor (R_ISYS) and Gain (ISYS_IN_GAIN) Selection in TPS536C9T VR14 Controller