Level based control of GPIOTE

Hi,

What I can't determine from the datasheet is whether once the initial output of GPIOTE is set if PPI & GPIOTE are fully async to the clock in which case it would be like level control where they couldn't miss an event, or whether the clock is working to determine the event (like a D gate) in which case potentially the event could be missed.

If I understand the scenario correct, you want two IN channels to, based on falling/rising edge-triggering, SET/CLR two other GPIOs. Please correct me if I'm mistaken.

GPIOTE IN/OUT, when connected through PPI, will be synchronous to the internal 16 MHz peripheral clock.

If more than one operation occurs on the same clock cycle, one event can be postponed to the next clock cycle.

There is however one scenario that can occur, which is errata #155:

https://infocenter.nordicsemi.com/topic/errata_nRF52810_Rev3/ERR/nRF52810/Rev3/latest/anomaly_810_155.html?cp=5_5_1_0_1_12

If you have two GPIOTE IN channels occurring within the timed scope (ie. < 1.3 us apart), you will hit this errata. 

The side-effect of this errata workaround is higher current consumption, as the peripheral clock tree will be kept in sleep mode.

Kind regards,

Håkon

Hi,

LMV393 has a propagation of 0.2us, which is 5 MHz.

As you say it's synchronous to the 16MHz clock, so let's say at max there are 5 edges at 0.2us apart. Would PPI/GPIOTE be able to keep up driving an output pin using the SET/CLEAR events?

It sounds like it would, so long as the propagation didn't take more than 3 clock cycles.

Hi,

A pull-resistor cannot be enabled on a output device, so the GPIO_PIN_CNF_PULL line does not have any effect when the GPIO is configured with GPIO_PIN_CNF_DIR_Output.

When you disable, you have setup the specific GPIO to be a open-drain, commonly used in I2C pin operation.

The drive-level is set to standard-drive on '0' (output low), and disconnected on output high '1'.

This means that the GPIO will float when set to '1'.

You have 3 states:

* EVENTS_DOWN

* EVENTS_UP

* "default state"

How do you want your GPIO(s) to be set in each of these states?

Kind regards,

Håkon

EVENTS_DOWN = task, 0,  GPIO_PIN_CNF_DRIVE_S0S1 
EVENTS_UP = task, 1, GPIO_PIN_CNF_DRIVE_S0S1 
DEFAULT (OVERRIDE) = external weak pull-down, GPIO_PIN_CNF_DRIVE_S0D1

The diagram within the gpio section indicates drive_strength will be respected. I only need to add an external weak-pull down resistor.

Pull-up and pull-down resistors can be enabled on an output pin on nRF52832 and nRF52840 (others not tested) and this is a really useful feature.

"A pull-resistor cannot be enabled on a output device" is not correct, although the Product Specification does show the pull-up and pull-down don't apply to an output pin. I have pointed out this issue in older posts, but the Product Specifications were not updated.

// Here are my measurement results, which prove the pullup/pull-down resistor is connected to the pin regardless
// of the input setting. nRF52832, 32MHz crystal, no 32kHz crystal, no Reset pin, SoftDevice loaded but not
// enabled, no peripherals enabled, idle. Power CR2032 coin cell, no ground other than PPK-2, no J-Link.
//
// This first table is default port settings after a reset, no changes:
//
// PPK-2  Meter  Conditions
// ====== ====== ==========
// 1.66uA 2.971V with errata workarounds, no i/o
// 1.51uA 2.985V   no errata workarounds, no i/o
//
// This Next table is port settings made after a reset, all 32 port pins identical, nothing connected to any of
// the 32 port pins, no errata applied:
//
// PPK-2  Meter   Direction    Input            Pullup         Drive Level      Sense Level    Output
// ====== ======  ==========   ==============   ============   ==============   ============== ===========
//
// 1.49uA 2.989V (PIN_OUTPUT | PIN_DISCONNECT | PIN_PULLNONE | PIN_DRIVE_S0S1 | PIN_SENSE_OFF) Driven Low
// 1.49uA 2.999V (PIN_OUTPUT | PIN_DISCONNECT | PIN_PULLDOWN | PIN_DRIVE_S0S1 | PIN_SENSE_OFF) Driven Low
// 6.47mA 2.894V (PIN_OUTPUT | PIN_DISCONNECT | PIN_PULLUP   | PIN_DRIVE_S0S1 | PIN_SENSE_OFF) Driven Low
// 6.47mA 2.889V (PIN_OUTPUT | PIN_CONNECT    | PIN_PULLUP   | PIN_DRIVE_S0S1 | PIN_SENSE_OFF) Driven Low
//
// 1.51uA 2.959V (PIN_OUTPUT | PIN_DISCONNECT | PIN_PULLNONE | PIN_DRIVE_S0S1 | PIN_SENSE_OFF) Driven High
// 6.42mA 2.877V (PIN_OUTPUT | PIN_DISCONNECT | PIN_PULLDOWN | PIN_DRIVE_S0S1 | PIN_SENSE_OFF) Driven High
// 1.53uA 2.938V (PIN_OUTPUT | PIN_DISCONNECT | PIN_PULLUP   | PIN_DRIVE_S0S1 | PIN_SENSE_OFF) Driven High
//
//
// This shows setting a port pin into active low output driven low is as good as leaving a pin floating
// when unused, with the added benefit that there is no possibility of port feedthrough if a floating pin
// drifts through the threshold.
//
// Looking at pull-up and pull down resistor values for the 32 pins:
//
//   (2.877Volts / 6.42mA) * 32 ==> 14.34K Ohm

Here is one of my older responses nrf52832-power-leakage which stian reported internally at the time

Marvellous! 

My revised PCB arrives today, so I'll build it and report back whether it works on the 810. I guess it will!

Happy to report that the GPIO drive config is being observed and the pull-downs are also working in output mode, matching hmolesworth's reply. This means I have a solution!

Happy to report that the GPIO drive config is being observed and the pull-downs are also working in output mode, matching hmolesworth's reply. This means I have a solution!