| Qualcomm QPNP PWM/LPG controller |
| |
| qpnp-pwm driver supports Pulse Width Module (PWM) functionality. PWM feature is |
| used in range of applications such as varying Display brightness, LED dimming, |
| etc. The Qualcomm PMICs have a physical device called Light Pulse Generator |
| (LPG). In addition to support PWM functionality, the LPG module provides |
| a rich set of user defined PWM pattern configurations, such as sawtooth, linear |
| up, linear down, triangular patterns etc. The PWM patterns are used in |
| applications such as charger driver where the driver uses these patterns |
| to indicate various states of charging. |
| |
| Required device bindings: |
| - compatible: should be "qcom,qpnp-pwm" |
| - reg: Offset and length of the controller's LPG channel register. |
| - reg-names: Name for the above register. |
| "qpnp-lpg-channel-base" = physical base address of the |
| controller's LPG channel register. |
| - qcom,channel-id: channel Id for the PWM. |
| |
| Optional device bindings: |
| - qcom,channel-owner: A string value to supply owner information. |
| - qcom,mode-select: 0 = PWM mode |
| 1 = LPG mode |
| If this binding is specified along with the required bindings of PWM/LPG then |
| in addition to configure PWM/LPG the qpnp-pwm driver also enables the feature |
| at the probe time. In the case where the binding is not specified the qpnp-pwm |
| driver does not enable the feature. Also, it is considered an error to specify |
| a particular mode using this binding but not the respective feature subnode. |
| |
| All PWM devices support both PWM and LPG features within the same device. |
| To support each feature, there are some required and optional bindings passed |
| through device tree. |
| |
| The PWM device can enable one feature (either PWM or LPG) at any given time. |
| Therefore, the qpnp-pwm driver applies the last PWM or LPG feature configuration |
| and enables that feature. |
| |
| Required bindings to support PWM feature: |
| - qcom,period: PWM period time in microseconds. |
| - qcom,duty: PWM duty time in microseconds. |
| - label: "pwm" |
| |
| Required bindings to support LPG feature: |
| The following bindings are needed to configure LPG mode, where a list of |
| duty cycle percentages is populated. The size of the list cannot exceed |
| the size of the LPG look-up table. |
| |
| - reg: Offset and length of LPG look-up table (LUT). The LPG look-up table is a |
| contiguous address space that is populated with PWM values. |
| The size of PWM value is 9 bit and the size of each |
| entry of the table is 8 bit. Thus, two entries are used |
| to fill each PWM value. The lower entry is used for PWM |
| LSB byte and higher entry is used for PWM MSB bit. |
| - reg-names: Name for the above register. |
| "qpnp-lpg-lut-base" = physical base address of LPG LUT. |
| - qcom,period: PWM period time in microseconds. |
| - qcom,duty-percents: List of entries for look-up table |
| - cell-index: Index of look-up table that should be used to start |
| filling up the duty-pct list. start-idx + size of list |
| cannot exceed the size of look-up table. |
| - label: "lpg" |
| |
| |
| Optional bindings to support LPG feature: |
| - qcom,ramp-step-duration: Time (in ms) to wait before loading next entry of LUT |
| - qcom,lpg-lut-pause-hi: Time (in ms) to wait once pattern reaches to hi |
| index. |
| - qcom,lpg-lut-pause-lo: Time (in ms) to wait once pattern reaches to lo |
| index. |
| - qcom,lpg-lut-ramp-direction: 1 = Start the pattern from lo index to hi index. |
| 0 = Start the pattern from hi index to lo index. |
| - qcom,lpg-lut-pattern-repeat: 1 = Repeat the pattern after the pause once it |
| reaches to last duty cycle. |
| 0 = Do not repeat the pattern. |
| - qcom,lpg-lut-ramp-toggle: 1 = Toggle the direction of the pattern. |
| 0 = Do not toggle the direction. |
| - qcom,lpg-lut-enable-pause-hi: 1 = Enable pause time at hi index. |
| 0 = Disable pause time at hi index. |
| - qcom,lpg-lut-enable-pause-lo: 1 = Enable pause time at lo index. |
| 0 = Disable pause time at lo index. |
| |
| |
| Example: |
| qcom,spmi@fc4c0000 { |
| #address-cells = <1>; |
| #size-cells = <0>; |
| |
| qcom,pm8941@1 { |
| spmi-slave-container; |
| reg = <0x1>; |
| #address-cells = <1>; |
| #size-cells = <1>; |
| |
| pwm@b100 { |
| #address-cells = <1>; |
| #size-cells = <1>; |
| compatible = "qcom,qpnp-pwm"; |
| reg = <0xb100 0x100>, |
| <0xb040 0x80>; |
| reg-names = "qpnp-lpg-channel-base", "qpnp-lpg-lut-base"; |
| qcom,channel-id = <0>; |
| status = "okay"; |
| }; |
| |
| pwm@b200 { |
| #address-cells = <1>; |
| #size-cells = <1>; |
| compatible = "qcom,qpnp-pwm"; |
| reg = <0xb200 0x100>, |
| <0xb040 0x80>; |
| reg-names = "qpnp-lpg-channel-base", "qpnp-lpg-lut-base"; |
| qcom,channel-id = <1>; |
| qcom,period = <6000000>; |
| status = "okay"; |
| qcom,pwm { |
| qcom,duty = <4000000>; |
| label = "pwm"; |
| }; |
| }; |
| |
| pwm@b500 { |
| #address-cells = <1>; |
| #size-cells = <1>; |
| compatible = "qcom,qpnp-pwm"; |
| reg = <0xb500 0x100>, |
| <0xb040 0x80>; |
| reg-names = "qpnp-lpg-channel-base", "qpnp-lpg-lut-base"; |
| qcom,channel-id = <4>; |
| qcom,period = <6000000>; |
| qcom,mode-select = <0>; |
| qcom,channel-owner = "RGB-led"; |
| status = "okay"; |
| |
| qcom,pwm { |
| qcom,duty = <4000000>; |
| label = "pwm"; |
| }; |
| |
| qcom,lpg { |
| qcom,duty-percents = <1 14 28 42 56 84 100 |
| 100 84 56 42 28 14 1>; |
| cell-index = <0>; |
| qcom,ramp-step-duration = <20>; |
| label = "lpg"; |
| }; |
| }; |
| }; |
| }; |
| |
| There are couple of ways to configure PWM device channels as shown in above |
| example, |
| 1. The PWM device channel #0 is configured with only required device bindings. |
| In this case, the qpnp-pwm driver does not configure any mode by default. |
| |
| 2. The qpnp-pwm driver configures PWM device channel #1 with PWM feature |
| configuration, but does not enable the channel since "qcom,mode-select" binding |
| is not specified in the devicetree. |
| |
| 3. Both the PWM and LPG configurations are provided for PWM device channel #4. |
| The qpnp-pwm driver configures both the modes, but enables PWM mode at the probe |
| time. It also sets the channel owner information for the channel. |